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Acta Crystallographica Section E: Crystallographic Communications logoLink to Acta Crystallographica Section E: Crystallographic Communications
. 2015 Apr 25;71(Pt 5):547–554. doi: 10.1107/S2056989015007859

New insights in the discovery of novel h-MAO-B inhibitors: structural characterization of a series of N-phenyl-4-oxo-4H-chromene-3-carboxamide derivatives

Ligia R Gomes a, John Nicolson Low b,*, Fernando Cagide c, Daniel Chavarria c, Fernanda Borges c
PMCID: PMC4420052  PMID: 25995877

N-(Substituted phen­yl)-4-oxo-4H-chromene-3-carboxamides have very similar conformations but show different inhibition activities against h-MAO-B so it may be assumed that the electronic environment provided by the substituents on the phenyl ring is the primary condition for the pharmacological activities displayed by these mol­ecules.

Keywords: crystal structure, drug design, chromones, conformation, supra­molecular structure, hydrogen bonding

Abstract

Six N-substituted-phenyl 4-oxo-4H-chromene-3-carboxamides, namely N-(2-nitro­phen­yl)-4-oxo-4H-chromene-3-carboxamide, C16H10N2O5 (2b), N-(3-meth­oxy­phen­yl)-4-oxo-4H-chromene-3-carboxamide, C17H13NO4, (3a), N-(3-bromo­phen­yl)-4-oxo-4H-chromene-3-carboxamide, C16H10BrNO3, (3b), N-(4-methoxy­phen­yl)-4-oxo-4H-chromene-3-carboxamide, C17H13NO4, (4a), N-(4-methyl­phen­yl)-4-oxo-4H-chromene-3-carboxamide, C17H13NO3, (4d), and N-(4-hy­droxy­phen­yl)-4-oxo-4H-chromene-3-carboxamide, C16H11NO4, (4e), have been structurally characterized. All compounds exhibit an anti conformation with respect to the C—N rotamer of the amide and a trans-related conformation with the carbonyl groups of the chromone ring of the amide. These structures present an intra­molecular hydrogen-bonded network comprising an N—H⋯O hydrogen bond between the amide N atom and the O atom of the carbonyl group of the pyrone ring, forming an S(6) ring, and a weak Car—H⋯O hydrogen bond in which the carbonyl group of the amide acts as acceptor for the H atom of an ortho-C atom of the exocyclic phenyl ring, which results in another S(6) ring. The N—H⋯O intra­molecular hydrogen bond constrains the carboxamide moiety such that it is virtually coplanar with the chromone ring.

Chemical context  

Chromones are a group of natural and synthetic oxygen heterocyclic compounds having a high degree of chemical diversity that is frequently linked to a broad array of biological activities. The chromone-3-(phen­yl)carboxamide derivatives, depicted the scheme, have emerged as promising compounds for the management of neurodegenerative diseases such as Alzheimer’s and Parkinson’s since they display selective inhibition activities against h-MAO-B. Recent data (Cagide et al., 2015) suggest that the activity and selectivity towards that enzyme is dependent on the nature and position of the substituent located in the exocyclic phenyl ring. When compared with the unsubstituted compound (1), the para substitution in the exocyclic phenyl ring seems to play an important role in the enzymatic inter­action: the presence of para-Cl (4c) and –CH3 (4d) substituents favours the potency while an –OH (4e) substituent has the opposite effect. The data acquired so far point out the importance of a structure–activity relationship study to optimize the potency vs selectivity of this type of inhibitor, namely performing structural and electronic changes in the substituents.

Thus, the results for the structural characterization of some chromone-3-phenyl­carboxamide derivatives are presented and discussed. These compounds are as follows – (1): N-phenyl-4-oxo-4H-chromene-3-carboxamide (Cagide et al., 2015); (2a): N-(2-meth­oxy­phen­yl)-4-oxo-4H-chromene-3-carb­oxamide (Gomes et al., 2013); (2b): N-(2-nitro­phen­yl)-4-oxo-4H-chromone-3-carboxamide (CCDC 1025354); (3a): N-(3-meth­oxy­phen­yl)-4-oxo-4H-chromene-3-carboxamide (CCDC 102353); (3b): N-(3-bromo­phen­yl)-4-oxo-4H-chromene-3-carboxamide (CCDC 1025352); (4a): N-(4-meth­oxyphen­yl)-4-oxo-4H-chromene-3-carboxamide (CCDC 1025355); (4b): N-(4-bromo­phen­yl)-4-oxo-4H-chromene-3-carboxamide (Gomes et al., 2015); (4c): N-(4-chloro­phen­yl)-4-oxo-4H-chromene-3-carboxamide (Gomes et al., 2015); (4d): N-(4-methyl­phen­yl)-4-oxo-4H-chromene-3-carboxamide; (4e): N-(4-hy­droxy­phen­yl)-4-oxo-4H-chromene-3-carboxamide (CCDC 102524). Compounds with CCDC numbers given were deposited by the current authors, Gomes, Borges and Low, in the Cambridge Structural Database (CSD; Groom & Allen, 2014).graphic file with name e-71-00547-scheme1.jpg

Structural commentary  

Mol­ecular structures  

Conformations and intra­molecular hydrogen-bond network

The structural analysis confirms that the mol­ecules are 4-chromone derivatives with a phenyl­amide substituent on position number 3 of the pyrone ring. Fig. 1 to 6 show the displacement ellipsoid diagrams with the adopted labelling scheme for (2b), (3a), (3b), (4a), (4d) and (4e), the structurally characterized compounds in this work. As seen, the mol­ecules exhibit an anti conformation with respect to the C–N rotamer of the amide following a pattern given by compound (1), which was previously described by Cagide et al. (2015). Due to the asymmetry of the chromone residue, the anti conformation can assume several geometries depending on the relative position of the carbonyl groups of the chromone ring and the amide group which can be cis or trans related. Compounds (1)–(4) exhibit a trans relation between these bonds as can be seen in Figs. 1 to 6. This mol­ecular conformation allows the establishment of two or three intra­molecular hydrogen bonds. Details of the intra­molecular hydrogen bonding are given in Tables 2–7 . Generally, as seen in the scheme below, there is an intra­molecular hydrogen bond involving the amide and the chromone where the amide nitro­gen atom acts as donor to the oxo oxygen atom of the chromone ring, forming an S(6) ring; the carboxyl oxygen of the amide acts as acceptor for a weak H inter­action with the C–H group located at the ortho position of the phenyl ring, forming another S(6) ring. This hydrogen-bonding network probably enhances the planarity of the mol­ecules and may prevent them from adopting some other possible conformations by restraining their geometries. Compounds (2a) and (2b) have substituents located at the ortho position on the benzyl ring with oxygen atoms (meth­oxy and nitro, respectively) that act as acceptors for the amide nitro­gen atom of the carboxamide residue, hence forming a third intra­molecular hydrogen bond (see scheme).graphic file with name e-71-00547-scheme2.jpg

Figure 1.

Figure 1

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A view of the asymmetric unit of (2b) with the atom-numbering scheme. Displacement ellipsoids are drawn at the 70% probability level.

Figure 2.

Figure 2

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A view of the asymmetric unit of (3a) with the atom-numbering scheme. Displacement ellipsoids are drawn at the 70% probability level.

Figure 3.

Figure 3

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A view of the asymmetric unit of (3b) with the atom-numbering scheme. Displacement ellipsoids are drawn at the 70% probability level.

Figure 4.

Figure 4

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A view of the asymmetric unit of (4a) with the atom-numbering scheme. Displacement ellipsoids are drawn at the 70% probability level.

Figure 5.

Figure 5

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A view of the asymmetric unit of (4d) with the atom-numbering scheme. Displacement ellipsoids are drawn at the 70% probability level.

Figure 6.

Figure 6

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A view of the asymmetric unit of (4e) with the atom-numbering scheme. Displacement ellipsoids are drawn at the 70% probability level.

Table 2. Hydrogen-bond geometry (Å, °) for (2b) .

D—H⋯A D—H H⋯A DA D—H⋯A
N3—H3⋯O4 0.96 (4) 1.95 (4) 2.718 (3) 136 (3)
N3—H3⋯O32 0.96 (4) 1.96 (4) 2.633 (3) 126 (3)
C316—H316⋯O3 0.95 2.40 2.902 (4) 113
C8—H8⋯O32i 0.95 2.58 3.210 (4) 124
C5—H5⋯O1ii 0.95 2.60 3.375 (4) 139
C313—H313⋯O3iii 0.95 2.49 3.299 (4) 143
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Symmetry codes: (i) Inline graphic; (ii) Inline graphic; (iii) Inline graphic.

Table 3. Hydrogen-bond geometry (Å, °) for (3a) .

D—H⋯A D—H H⋯A DA D—H⋯A
N3—H3⋯O4 0.95 (2) 1.89 (2) 2.7147 (17) 143.8 (18)
C312—H312⋯O3 0.95 2.25 2.855 (2) 121
C2—H2⋯O3i 0.95 2.37 3.243 (2) 153
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Symmetry code: (i) Inline graphic.

Table 4. Hydrogen-bond geometry (Å, °) for (3b) .

D—H⋯A D—H H⋯A DA D—H⋯A
N13—H13⋯O14 0.88 1.93 2.686 (3) 143
N23—H23⋯O24 0.88 1.94 2.698 (3) 143
C12—H12⋯O131 0.95 2.34 2.727 (4) 104
C22—H22⋯O231 0.95 2.33 2.725 (4) 104
C132—H132⋯O131 0.95 2.26 2.860 (4) 121
C232—H232⋯O231 0.95 2.28 2.865 (4) 119
C12—H12⋯O14i 0.95 2.49 3.221 (4) 134
C22—H22⋯O24i 0.95 2.43 3.185 (4) 136
C15—H15⋯O11ii 0.95 2.68 3.587 (4) 160
C25—H25⋯O21ii 0.95 2.58 3.530 (4) 177
C136—H136⋯O131ii 0.95 2.43 3.282 (4) 149
C236—H236⋯O231ii 0.95 2.41 3.270 (4) 151
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Symmetry codes: (i) Inline graphic; (ii) Inline graphic.

Table 5. Hydrogen-bond geometry (Å, °) for (4a) .

D—H⋯A D—H H⋯A DA D—H⋯A
N3—H3⋯O4 0.901 (17) 1.903 (16) 2.6919 (13) 145.0 (15)
C312—H312⋯O3 0.95 2.37 2.9441 (17) 119
C2—H2⋯O4i 0.95 2.47 3.212 (3) 134
C316—H316⋯O3ii 0.95 2.33 3.201 (2) 152
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Symmetry codes: (i) Inline graphic; (ii) Inline graphic.

Table 6. Hydrogen-bond geometry (Å, °) for (4d) .

D—H⋯A D—H H⋯A DA D—H⋯A
N3—H3⋯O4 0.900 (18) 1.916 (18) 2.7098 (13) 146.1 (15)
C312—H312⋯O3 0.95 2.37 2.9240 (16) 116
C2—H2⋯O4i 0.95 2.40 3.1280 (14) 133
C316—H316⋯O3ii 0.95 2.44 3.3644 (14) 164
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Symmetry codes: (i) Inline graphic; (ii) Inline graphic.

Table 7. Hydrogen-bond geometry (Å, °) for (4e) .

D—H⋯A D—H H⋯A DA D—H⋯A
N13—H13⋯O14 0.94 (4) 1.88 (4) 2.693 (4) 143 (4)
N23—H23⋯O24 0.90 (4) 1.95 (4) 2.698 (4) 139 (4)
C112—H112⋯O13 0.95 2.23 2.833 (4) 121
C212—H212⋯O23 0.95 2.28 2.845 (4) 117
O114—H114⋯O23 0.91 (6) 1.76 (6) 2.647 (4) 167 (5)
O214—H214⋯O13i 0.88 (5) 1.81 (5) 2.668 (4) 165 (5)
C16—H16⋯O114ii 0.95 2.46 3.411 (5) 174
C18—H18⋯O24iii 0.95 2.56 3.481 (5) 163
C22—H22⋯O114 0.95 2.58 3.508 (4) 166
C26—H26⋯O214iv 0.95 2.51 3.454 (5) 175
C28—H28⋯O14iv 0.95 2.46 3.391 (5) 165
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Symmetry codes: (i) Inline graphic; (ii) Inline graphic; (iii) Inline graphic; (iv) Inline graphic.

Mol­ecular geometries

The values for bond lengths involving the atoms of the carboxamide residue assume the expected ranges for amides with aromatic substituents. The C3—C31 bond ranges from 1.49 to 1.51 Å, which are the typical range values for an Csp 3—Csp 3 bond (Allen et al., 1987). The C31—O3 bond lengths range from 1.22 to 1.25 Å and the C31—N3 bond lengths are within the 1.33 to 1.37 Å inter­val, showing the the partial sp 2 character of the amide nitro­gen atom attributed to those compounds.

Table 1 details selected dihedral angles between the mean planes of aromatic rings, θChr-Phe, between the chromone ring and the amide moiety (the plane defined by atoms O3, C31and N3), θChr-amide, and between the exocyclic phenyl ring and the amide, θPhe-amide. Those dihedral angles are primarily due to the rotation of the rings around the C3—C31 and N3—C311 bonds with exception of (3a) that assumes mainly a bent conformation between the rings. The structural analysis of (1) performed previously (Cagide et al., 2015) revealed that the amide moiety is practically planar with the chromone ring: it makes a dihedral angle of 4.31 (12)° with the plane defined by the O, C and N atoms of the amide residue. The loss of planarity for the overall mol­ecule results from the slight twist of the exocyclic phenyl substituent around the amidic N—C bond, which is the main factor affecting the value for the dihedral angle of 9.48 (12)° between the best plane of the exocyclic phenyl ring and the O—C—N amidic plane. The dihedral angle between the mean plane of the chromone ring and that of the exocyclic phenyl ring is 10.77 (4)°. The θChr-amide dihedral angles for the substituted compounds are below 15° for all the compounds, suggesting that the amide moiety is essentially planar with the chromone ring. The strong N3—H3⋯O4 hydrogen contact may preclude higher rotations around the C3—C31 bond in spite of its Csp 3—Csp 3 character. The θPhe-amide angles present more widely spread values, ranging between 2 and 33°. The substituents with oxygen atoms located at the ortho position on the exocyclic phenyl ring in (2) which, simultaneously, cause steric hindrance and act as acceptors for the hydrogen atom of the amide, thus forming an intra­molecular hydrogen bond, suggest that a tricky balance between those two factors allows the formation of several energetically accessible rotated conformations. This fact is especially noticeable in the various conformation polymorphs of (2a).

Table 1. Selected dihedral angles (°).

θChr-Phe is the dihedral angle between the mean planes of the chromene and the phenyl ring. θChr-amide is the dihedral angle between the mean planes of the chromone ring and the plane defined by atoms O3, C31 and N3. θamide-Phe is the dihedral angle between the mean planes of the phenyl ring and the plane defined by atoms O3, C31 and N3. The suffices A and B for compound (2a) denote the polymeric forms. Basic Conf. denotes the primary shape given by the relative position of the aromatic rings around the carboxamide linkage.

Compound θChr-Phe θChr-amide θamide-Phe Basic Conf.
(1) 10.77 (4) 4.31 (12) 9.48 (12) Rotation
(2a mol1A 11.64 (5) 8.72 (14) 20.35 (13) Rotation
(2a mol2A 2.47 (5) 1.75 (2) 2.2 (2) Planar
(2a mol1B 6.50 (18) 15.0 (5) 10.1 (6) Rotation
(2a mol2B 10.52 (17) 1.8 (6) 12.27 (6) Rotation
(2b) 35.96 (9) 2.35 (4) 33.6 (2) Rotation
(3a) 15.61 (8) 9.3 (3) 11.7 (2) Bent
(3b) mol1 2.68 (10) 2.0 (4) 4.0 (4) Planar
(3b) mol2 10.31 (12) 0.6 (4) 10.42 (12) Rotation
(4a) 11.48 (6) 5.2 (5) 6.5 (4) Rotation
(4b) 4.90 (10) 2.0 (4) 2.9 (4) Planar
(4c) 1.95 (7) 5.7 (3) 4.4 (3) Planar
(4d) 22.88 (4) 2.71 (8) 23.90 (5) Rotation
(44e) mol1 3.58 (17) 5.9 (2) 9.5 (3) Rotation
(44e) mol2 10.02 (15) 10.69 (2) 19.8 (2) Rotation
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The remaining compounds are not constrained by steric hindrance of the ortho-substituents but they still present a wide range of values for the θPhe-amide dihedral angles (between 3 and 24°). The θChr-Phe values may be used as a measure of the relative positioning of the two aromatic rings which may define the primary conformation for the mol­ecules. The aromatic rings are usually rotated or co-planar, with exception of (3a) where they are bent with respect to each other. The chromones with halogen substituents assume the most planar conformations, probably related to the typical positive mesomeric effects on the π system. Considering the fact that the para-substituent on the exocyclic phenyl ring for chromone-3-phenyl­carboxamides has a positive effect on their activity, and the requirement of establishing the factors that can modulate the enzyme–ligand inter­action, it can be assumed their h-MAO-B activity is strongly dependent on the electronic environment of the substituent. This is not a preferred conformation that reduces or enhances the activity, so it may be assumed that the electronic environment provided by the substituent is the primary condition for the pharmacological activities displayed by those mol­ecules.

In compound (3b) there are two mol­ecules in the asymmetric unit. A calculation using Molfit with Quaternion Transformation Method (Mackay, 1984) gave the following fit: weighted/unit weight r.m.s. fits: 0.133/0.144 Å for 23 atoms with mol­ecule 1 inverted on mol­ecule 2, 21 atoms. The largest individual displacement is 0.178 Å(Br13/Br23). The r.m.s. bond fit = 0.0052 Å and the r.m.s. angle fit = 0.437°.

Supra­molecular features  

The carboxamide H atom is not involved in any inter­molecular inter­action in any of the compounds.

In (2b), the mol­ecules are linked by C8—H8⋯O32(−x, y + Inline graphic, −z + Inline graphic), C5—H5⋯O1(−x, y − Inline graphic, −z + Inline graphic) and C313—H313⋯O3(−x, y − Inline graphic, −z + Inline graphic) hydrogen bonds which, by the action of twofold screw axes running parallel to the b axis, link the mol­ecules into corrugated sheets which lie parallel to the (10Inline graphic) plane, and which form a distorted chequerboard pattern comprised of Inline graphic(15) and Inline graphic(23) rings (Table 2 and Fig. 7).

Figure 7.

Figure 7

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View of the sheet formed by the inter­connection of three C—H⋯O hydrogen bonded chains in compound (2b). Hydrogen atoms not involved in the hydrogen bonding have been omitted for clarity. [Symmetry codes (from bottom to top rows and left to right). Bottom: −x + 1, y − Inline graphic, −z + Inline graphic; −x + 1, y + Inline graphic, −z + Inline graphic. Middle: x, −y, z; x, y, z; x, y + 1, z. Top: −x, y − Inline graphic, −z + Inline graphic; −x, y + Inline graphic, −z + Inline graphic.]

In (3a), the mol­ecules are linked by the C2—H2⋯O3(−x + 1, −y + 1, −z + 1) hydrogen bond, forming centrosymmetric dimers across the inversion centre at (1/2, 1/2, 1/2) (Table 3 and Fig. 8).

Figure 8.

Figure 8

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View of the dimer formed across the inversion centre (½, ½, ½) in (3a). Hydrogen atoms not involved in the hydrogen bonding have been omitted for clarity.

In (3b), independent ladders of mol­ecule 1 and mol­ecule 2 are propagated along the a-axis direction by unit translation. These are formed by chains of Inline graphic(13) rings produced by the weak Cx2—Hx2⋯Ox4(x + 1, y, z) and Cx36—Hx36⋯Ox3(x − 1, y, z) inter­actions, where x = 1 or 2 (Table 4 and Fig. 9).

Figure 9.

Figure 9

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View of the two independent ladders formed linked Inline graphic(13) rings which run parallel to the a axis in compound (3b). Hydrogen atoms not involved in the hydrogen bonding have been omitted for clarity. [Symmetry codes (bottom to top): x − 1, y, z; x, y, z; x + 1, y, z.]

A common feature found for compounds with para substituents, (4a)–(4d) is the formation of a ladder structure composed of mol­ecules propagated by unit axial translations involving inter­molecular hydrogen bonds between C2 and O4 of the chromone ring and the C atom located at the ortho position of the exocyclic phenyl ring and the carboxamide O atom. This is also found in (1) and in compound (3b), which has a Br substituent located at the meta position, in which the ladder structure is supplemented by an inter­molecular hydrogen bond between C5 and O1 of the chromone moiety. In (4a), the mol­ecules are linked by C2—H2⋯O4 (x, y − 1, z) and C316—H316⋯O3 (x, y + 1, z) hydrogen bonds, forming Inline graphic(13) rings structures which are propagated along the b-axis direction by unit translation (Table 5 and Fig. 10). In (4d), the mol­ecules are linked by C2—H2⋯O4(x + 1, y, z) and C316—H316⋯O3(x − 1, y, z) hydrogen bonds, forming Inline graphic(13) ring structures which are propagated along the a-axis direction by unit translation (Table 6 and Fig. 11).

Figure 10.

Figure 10

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View of the ladder formed by the linked Inline graphic(13) rings which run parallel to the b axis in compound (4a). Hydrogen atoms not involved in the hydrogen bonding have been omitted for clarity. [Symmetry codes (bottom to top): x, y − 1, z; x, y, z; x, y + 1, z.]

Figure 11.

Figure 11

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View of the ladder formed by the linked Inline graphic(13) rings which run parallel to the a axis in compound (4d). Hydrogen atoms not involved in the hydrogen bonding have been omitted for clarity. [Symmetry codes (bottom to top): x − 1, y, z; x, y, z; x + 1, y, z.]

In the hydroxyl compound (4e), the mol­ecules in the asymmetric unit are linked by the O114—H114⋯O23 hydrogen bond, forming a dimer. These dimers are linked by the O214—H214⋯O13(x − 1,1 + y, z) and weak C16—H16⋯O114(x, y, z − 1), C18—H18⋯O24(x + 1, y − 1, z − 1), C26—H26⋯O214(x, y, z + 1) and C28—H28⋯O14(x, y, z + 1) hydrogen bonds, which link the mol­ecules into sheets that form a chequerboard pattern and which lie parallel to the (Inline graphic10) plane, comprised of Inline graphic(15) and Inline graphic(24) rings (Table 7 and Fig. 12).

Figure 12.

Figure 12

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View of the sheet formed by the inter­connection of three C—H⋯O hydrogen-bonded chains in compound (4e). Hydrogen atoms not involved in the hydrogen bonding have been omitted for clarity. [Symmetry codes (from bottom to top rows and left to right). Bottom: x + 1, y − 1, z − 1; x + 1, y − 1, z − 1; x + 1, y − 1, z + 1. Middle two rows: x, y, z − 1; x, y, z; x, y, z + 1. Top: x − 1, y + 1, z − 1; x − 1, y + 1,z; x − 1, y + 1, z + 1.]

Selected π–π contacts, with centroid-to-centroid distances less than 4.0 Å and with angles between planes of less than 10° for compounds (2b), (3b), (4a) and (4d) are listed in Table 8. No inter­actions were found for (3a).

Table 8. Selected π–π contacts (Å, °) for compounds (2b), (3b) (mol­ecule 1), (4a) and (4d).

Cg1, Cg2 and Cg3(Cg7) are the centroids of the pyrone, of the chromone phenyl and of the carboxamide phenyl rings, respectively. * indicates contacts in which the planes involved are inclined to each other, the perpendicular distance between the planes is an average value and the angle between the planes is given in place of a slippage. Only inter­planar inter­actions with CgCg distances less than or equal to 4.0 Å or with angles between the planes of less than 10° are included.

Compound contacts distance perp. distance Slippage*
(2b) Cg1⋯Cg1iii 3.859 (3) 3.4223* 4.0 (13)*
  Cg1⋯Cg2iv 3.564 (3) 3.3951* 3.86 (13)*
  Cg2⋯Cg2iv 3.674 (3) 3.4035* 4.0 (13)*
  Cg3⋯Cg3i 3.649 (3) 3.3049 (11) 1.546
(3b) Cg1⋯Cg3v 3.6621 (17) 3.4150* 2.91 (13)
  Cg2⋯Cg3vi 3.6851 (18) 3.3587* 2.47 (14)*
  Cg2⋯Cg3v 3.7278 (17) 3.4360* 2.47 (14)*
(4a) Cg2⋯Cg3ii 3.780 (3) 3.383* 1.90 (6)*
(4d) Cg1⋯Cg1vii 3.4831 (7) 3.3257 (4) 1.035
  Cg1⋯Cg2Vii 3.6037 (7) 3.3137* 2.46 (5)*
(4e) Cg1⋯Cg3vi 3.669 (2) 3.3741* 3.50 (17)*
  Cg1⋯Cg7v 3.768 (2) 3.3792* 3.09 (17)*
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Symmetry codes: (i) 1 − x, 1 − y, 1 − z; (ii) Inline graphic − x, −Inline graphic + y, Inline graphic − z; (iii) x, Inline graphic − y, −Inline graphic + z; (iv) x, Inline graphic − y, Inline graphic + z; (v) 1 − x, 1 − y, −z; (vi) 1 − x, −y, −z; (vii) 1 − x, −y, 1 − z.

Synthesis and crystallization  

The compounds were obtained by synthetic strategies described elsewhere (Cagide et al., 2011). Chromone-3-carboxamide derivatives were synthesized using chromone-3-carb­oxy­lic acid as starting material which, after in situ activ­ation with phospho­rus(V) oxychloride (POCl3) in di­methyl­formamide, react with the different substituted anilines. Crystals were recrystallized from ethyl­acetate forming colourless plates whose dimensions are given in Table 9.

Table 9. Experimental details.

  (2b) (3a) (3b)
Crystal data
Chemical formula C16H10N2O5 C17H13NO4 C16H10BrNO3
M r 310.26 295.28 344.16
Crystal system, space group Monoclinic, P21/c Monoclinic, P21/n Triclinic, P Inline graphic
Temperature (K) 100 100 120
a, b, c (Å) 14.104 (9), 12.692 (8), 7.340 (5) 9.6903 (2), 5.5303 (4), 24.9335 (18) 6.7435 (1), 7.3012 (1), 28.0740 (9)
α, β, γ (°) 90, 100.065 (13), 90 90, 99.162 (5), 90 85.309 (4), 89.164 (4), 70.645 (3)
V3) 1293.7 (15) 1319.15 (14) 1299.64 (5)
Z 4 4 4
Radiation type Mo Kα Mo Kα Mo Kα
μ (mm−1) 0.12 0.11 3.17
Crystal size (mm) 0.09 × 0.02 × 0.01 0.16 × 0.11 × 0.02 0.38 × 0.34 × 0.06
 
Data collection
Diffractometer Rigaku Saturn724+ Rigaku Saturn724+ Rigaku R-AXIS conversion
Absorption correction Multi-scan (CrystalClear-SM Expert; Rigaku, 2012) Multi-scan (CrystalClear-SM Expert; Rigaku, 2012) Multi-scan (CrystalClear-SM Expert; Rigaku, 2012)
T min, T max 0.989, 0.999 0.983, 0.998 0.379, 0.833
No. of measured, independent and observed [I > 2σ(I)] reflections 8466, 2947, 2215 7859, 2665, 1952 16781, 5939, 5633
R int 0.061 0.055 0.045
(sin θ/λ)max−1) 0.649 0.625 0.650
 
Refinement
R[F 2 > 2σ(F 2)], wR(F 2), S 0.077, 0.153, 1.16 0.041, 0.108, 0.98 0.044, 0.116, 1.08
No. of reflections 2947 2665 5939
No. of parameters 212 205 379
H-atom treatment H atoms treated by a mixture of independent and constrained refinement H atoms treated by a mixture of independent and constrained refinement H-atom parameters constrained
Δρmax, Δρmin (e Å−3) 0.24, −0.31 0.27, −0.28 1.79, −0.86
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  (4a) (4d) (4e)
Crystal data
Chemical formula C17H13NO4 C17H13NO3 C16H11NO4
M r 295.28 279.28 281.26
Crystal system, space group Monoclinic, P21/n Triclinic, P Inline graphic Triclinic, P Inline graphic
Temperature (K) 100 100 100
a, b, c (Å) 14.1629 (10), 6.772 (5), 15.1898 (11) 6.6106 (5), 7.0143 (5), 15.3749 (11) 7.0756 (5), 12.5125 (9), 14.2944 (10)
α, β, γ (°) 90, 116.607 (11), 90 91.444 (6), 95.238 (6), 112.551 (8) 86.267 (8), 83.839 (8), 84.588 (8)
V3) 1302.6 (10) 654.25 (9) 1250.68 (16)
Z 4 2 4
Radiation type Mo Kα Mo Kα Mo Kα
μ (mm−1) 0.11 0.10 0.11
Crystal size (mm) 0.15 × 0.07 × 0.01 0.16 × 0.09 × 0.02 0.14 × 0.04 × 0.04
 
Data collection
Diffractometer Rigaku Saturn724+ Rigaku Saturn724+ Rigaku Saturn724+
Absorption correction Multi-scan (CrystalClear-SM Expert; Rigaku, 2012) Multi-scan (CrystalClear-SM Expert; Rigaku, 2012) Multi-scan (CrystalClear-SM Expert; Rigaku, 2012)
T min, T max 0.984, 0.999 0.985, 0.998 0.985, 0.996
No. of measured, independent and observed [I > 2σ(I)] reflections 16554, 2987, 2617 9400, 2986, 2645 5627, 5627, 4343
R int 0.042 0.035  
(sin θ/λ)max−1) 0.650 0.651 0.652
 
Refinement
R[F 2 > 2σ(F 2)], wR(F 2), S 0.037, 0.103, 0.92 0.043, 0.123, 1.08 0.085, 0.252, 1.18
No. of reflections 2987 2986 5627
No. of parameters 204 196 392
H-atom treatment H atoms treated by a mixture of independent and constrained refinement H atoms treated by a mixture of independent and constrained refinement H atoms treated by a mixture of independent and constrained refinement
Δρmax, Δρmin (e Å−3) 0.39, −0.18 0.33, −0.26 0.41, −0.38
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Computer programs: CrystalClear-SM Expert (Rigaku, 2012), SHELXS97 (Sheldrick, 2008), SHELXL2014 (Sheldrick, 2015), PLATON (Spek, 2009), Flipper 25 (Oszlányi & Sütő, 2004), OSCAIL (McArdle et al., 2004), ShelXle (Hübschle et al., 2011) and Mercury (Macrae et al., 2006).

Refinement  

Crystal data, data collection and structure refinement details are summarized in Table 9.

In (3b) there are two mol­ecules in the asymmetric unit. The largest difference map peaks are associated with the Br atoms.

In all compounds, H atoms attached to C atoms were treated as riding atoms with C—H(aromatic) = 0.95 Å with U iso(H) = 1.2U eq(C); C—H(meth­yl), = 0.98 Å with U iso= 1.5U eq(C). In all compounds, the amino H atoms were refined with the exception of (3b) where these atoms were refined as riding atoms with N—H = 0.88 Å with U iso = 1.2U eq(C) and in (4e) in which the positional parameters of the amino and hydroxyl H atoms were refined but their U iso values were constrained to be U iso(N) = 1.2U eq(N) and U iso(O)b= 1.5U eq(O). The final positions of these atoms were checked in a difference Fourier map, as were the positions of the H atoms in any methyl groups. The quality of the crystals for (4e) was poor and the crystals were twinned. The completeness is 97%. The crystal studied was refined as a two-component twin [twin law: 2-axis (001) [Inline graphic05], BASF = 0.40].

Supplementary Material

Crystal structure: contains datablock(s) 2b, 3a, 3b, 4a, 4d, 4e, global. DOI: 10.1107/S2056989015007859/lh5762sup1.cif

e-71-00547-sup1.cif (4.8MB, cif)

Structure factors: contains datablock(s) 2b. DOI: 10.1107/S2056989015007859/lh57622bsup2.hkl

e-71-00547-2bsup2.hkl (161.9KB, hkl)

Structure factors: contains datablock(s) 3a. DOI: 10.1107/S2056989015007859/lh57623asup3.hkl

e-71-00547-3asup3.hkl (146.5KB, hkl)

Structure factors: contains datablock(s) 3b. DOI: 10.1107/S2056989015007859/lh57623bsup4.hkl

e-71-00547-3bsup4.hkl (325.5KB, hkl)

Structure factors: contains datablock(s) 4a. DOI: 10.1107/S2056989015007859/lh57624asup5.hkl

e-71-00547-4asup5.hkl (164.1KB, hkl)

Structure factors: contains datablock(s) 4d. DOI: 10.1107/S2056989015007859/lh57624dsup6.hkl

e-71-00547-4dsup6.hkl (164KB, hkl)

Structure factors: contains datablock(s) 4e. DOI: 10.1107/S2056989015007859/lh57624esup7.hkl

e-71-00547-4esup7.hkl (308.4KB, hkl)
Click here for additional data file. (5.4KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57622bsup8.cml

Click here for additional data file. (5.5KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57623asup9.cml

Click here for additional data file. (5KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57623bsup10.cml

Click here for additional data file. (5.5KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57624asup11.cml

Click here for additional data file. (5.3KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57624dsup12.cml

Click here for additional data file. (5.1KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57624esup13.cml

CCDC references: 1025354, 1025353, 1025352, 1025255, 1025257, 1025254

Additional supporting information: crystallographic information; 3D view; checkCIF report

Acknowledgments

The authors thank the National Crystallographic Service, University of Southampton for the data collection and for their help and advice (Coles & Gale, 2012) and the Foundation for Science and Technology (FCT), Portugal, for financial support. FC (grant SFRH/BPDF/QUI-QUI/74491/2010) is also supported by the FCT.

supplementary crystallographic information

(2b) N-(2-Nitrophenyl)-4-oxo-4H-chromene-3-carboxamide . Crystal data

C16H10N2O5 F(000) = 640
Mr = 310.26 Dx = 1.593 Mg m3
Monoclinic, P21/c Mo Kα radiation, λ = 0.71075 Å
a = 14.104 (9) Å Cell parameters from 3262 reflections
b = 12.692 (8) Å θ = 2.2–31.3°
c = 7.340 (5) Å µ = 0.12 mm1
β = 100.065 (13)° T = 100 K
V = 1293.7 (15) Å3 Rod, yellow
Z = 4 0.09 × 0.02 × 0.01 mm
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(2b) N-(2-Nitrophenyl)-4-oxo-4H-chromene-3-carboxamide . Data collection

Rigaku Saturn724+ (2x2 bin mode) diffractometer 2947 independent reflections
Radiation source: Rotating Anode 2215 reflections with I > 2σ(I)
Confocal monochromator Rint = 0.061
Detector resolution: 28.5714 pixels mm-1 θmax = 27.5°, θmin = 2.9°
profile data from ω–scans h = −18→18
Absorption correction: multi-scan (CrystalClear-SM Expert; Rigaku, 2012) k = −16→15
Tmin = 0.989, Tmax = 0.999 l = −9→9
8466 measured reflections
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(2b) N-(2-Nitrophenyl)-4-oxo-4H-chromene-3-carboxamide . Refinement

Refinement on F2 0 restraints
Least-squares matrix: full Hydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.077 H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.153 w = 1/[σ2(Fo2) + (0.0365P)2 + 1.6526P] where P = (Fo2 + 2Fc2)/3
S = 1.16 (Δ/σ)max < 0.001
2947 reflections Δρmax = 0.24 e Å3
212 parameters Δρmin = −0.31 e Å3
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(2b) N-(2-Nitrophenyl)-4-oxo-4H-chromene-3-carboxamide . Special details

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.
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(2b) N-(2-Nitrophenyl)-4-oxo-4H-chromene-3-carboxamide . Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
O1 0.06264 (13) 0.90167 (15) 0.2131 (3) 0.0216 (5)
O3 0.33472 (14) 0.85362 (16) 0.4843 (3) 0.0253 (5)
O4 0.15266 (14) 0.59520 (16) 0.2912 (3) 0.0261 (5)
O31 0.37222 (16) 0.41995 (16) 0.8305 (3) 0.0296 (5)
O32 0.27802 (14) 0.48771 (16) 0.5956 (3) 0.0261 (5)
N3 0.32255 (17) 0.67310 (19) 0.4733 (3) 0.0200 (5)
H3 0.278 (3) 0.616 (3) 0.447 (5) 0.049 (11)*
N31 0.35685 (17) 0.48317 (19) 0.7022 (3) 0.0219 (6)
C2 0.1510 (2) 0.8769 (2) 0.3047 (4) 0.0209 (6)
H2 0.1918 0.9337 0.3523 0.025*
C3 0.18677 (19) 0.7789 (2) 0.3351 (4) 0.0180 (6)
C4 0.1266 (2) 0.6879 (2) 0.2674 (4) 0.0201 (6)
C4A 0.03017 (19) 0.7160 (2) 0.1659 (4) 0.0191 (6)
C5 −0.0351 (2) 0.6377 (2) 0.0908 (4) 0.0206 (6)
H5 −0.0180 0.5655 0.1071 0.025*
C6 −0.1244 (2) 0.6653 (2) −0.0068 (4) 0.0249 (7)
H6 −0.1681 0.6119 −0.0588 0.030*
C7 −0.1509 (2) 0.7710 (3) −0.0296 (4) 0.0246 (7)
H7 −0.2126 0.7889 −0.0969 0.030*
C8 −0.0884 (2) 0.8501 (2) 0.0448 (4) 0.0232 (6)
H8 −0.1063 0.9222 0.0311 0.028*
C8A 0.0017 (2) 0.8203 (2) 0.1405 (4) 0.0212 (6)
C31 0.2891 (2) 0.7728 (2) 0.4371 (4) 0.0211 (6)
C311 0.4162 (2) 0.6460 (2) 0.5629 (4) 0.0202 (6)
C312 0.43423 (19) 0.5536 (2) 0.6708 (4) 0.0196 (6)
C313 0.5268 (2) 0.5248 (2) 0.7552 (4) 0.0221 (6)
H313 0.5367 0.4627 0.8284 0.027*
C314 0.6038 (2) 0.5870 (2) 0.7320 (4) 0.0250 (7)
H314 0.6673 0.5677 0.7880 0.030*
C315 0.5883 (2) 0.6778 (2) 0.6266 (4) 0.0236 (7)
H315 0.6416 0.7203 0.6103 0.028*
C316 0.4957 (2) 0.7078 (2) 0.5439 (4) 0.0223 (6)
H316 0.4866 0.7711 0.4739 0.027*
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(2b) N-(2-Nitrophenyl)-4-oxo-4H-chromene-3-carboxamide . Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
O1 0.0174 (10) 0.0192 (10) 0.0275 (12) 0.0018 (8) 0.0020 (8) 0.0005 (9)
O3 0.0215 (11) 0.0186 (10) 0.0348 (13) −0.0029 (9) 0.0027 (9) −0.0010 (9)
O4 0.0214 (11) 0.0163 (10) 0.0381 (13) 0.0011 (9) −0.0016 (9) 0.0017 (9)
O31 0.0355 (12) 0.0219 (11) 0.0300 (13) 0.0006 (10) 0.0022 (10) 0.0077 (10)
O32 0.0190 (10) 0.0229 (11) 0.0341 (13) −0.0012 (9) −0.0017 (9) 0.0027 (9)
N3 0.0160 (12) 0.0170 (12) 0.0258 (14) 0.0010 (10) 0.0004 (10) 0.0022 (10)
N31 0.0217 (12) 0.0191 (12) 0.0256 (14) 0.0015 (10) 0.0057 (11) 0.0013 (10)
C2 0.0169 (14) 0.0236 (15) 0.0223 (16) 0.0015 (12) 0.0033 (12) −0.0012 (12)
C3 0.0173 (13) 0.0185 (13) 0.0182 (14) −0.0004 (12) 0.0029 (11) 0.0009 (12)
C4 0.0190 (14) 0.0209 (14) 0.0210 (15) 0.0016 (12) 0.0053 (11) 0.0029 (12)
C4A 0.0162 (13) 0.0221 (14) 0.0189 (15) −0.0015 (12) 0.0028 (11) 0.0005 (12)
C5 0.0209 (14) 0.0182 (14) 0.0229 (15) 0.0010 (12) 0.0042 (12) 0.0002 (12)
C6 0.0233 (15) 0.0272 (16) 0.0238 (16) −0.0018 (13) 0.0033 (12) −0.0020 (13)
C7 0.0187 (14) 0.0318 (16) 0.0236 (16) 0.0039 (14) 0.0044 (12) 0.0003 (13)
C8 0.0238 (15) 0.0252 (15) 0.0215 (15) 0.0046 (13) 0.0062 (12) 0.0007 (13)
C8A 0.0197 (14) 0.0231 (15) 0.0212 (15) −0.0005 (12) 0.0048 (11) −0.0019 (12)
C31 0.0204 (14) 0.0217 (14) 0.0220 (16) −0.0012 (12) 0.0063 (12) 0.0004 (12)
C311 0.0174 (13) 0.0217 (14) 0.0207 (15) 0.0014 (12) 0.0014 (11) −0.0012 (12)
C312 0.0177 (13) 0.0187 (14) 0.0225 (15) −0.0012 (12) 0.0034 (11) −0.0003 (12)
C313 0.0230 (15) 0.0211 (14) 0.0216 (16) 0.0023 (12) 0.0021 (12) −0.0018 (12)
C314 0.0199 (14) 0.0270 (16) 0.0264 (17) 0.0041 (13) −0.0005 (12) −0.0063 (13)
C315 0.0175 (14) 0.0263 (15) 0.0273 (16) −0.0025 (13) 0.0048 (12) −0.0057 (13)
C316 0.0181 (14) 0.0217 (15) 0.0269 (17) −0.0006 (12) 0.0033 (12) −0.0016 (12)
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(2b) N-(2-Nitrophenyl)-4-oxo-4H-chromene-3-carboxamide . Geometric parameters (Å, º)

O1—C2 1.346 (3) C5—H5 0.9500
O1—C8A 1.389 (3) C6—C7 1.395 (4)
O3—C31 1.228 (4) C6—H6 0.9500
O4—C4 1.235 (3) C7—C8 1.384 (4)
O31—N31 1.227 (3) C7—H7 0.9500
O32—N31 1.244 (3) C8—C8A 1.392 (4)
N3—C31 1.360 (4) C8—H8 0.9500
N3—C311 1.411 (4) C311—C316 1.396 (4)
N3—H3 0.96 (4) C311—C312 1.413 (4)
N31—C312 1.460 (4) C312—C313 1.392 (4)
C2—C3 1.346 (4) C313—C314 1.378 (4)
C2—H2 0.9500 C313—H313 0.9500
C3—C4 1.468 (4) C314—C315 1.383 (4)
C3—C31 1.508 (4) C314—H314 0.9500
C4—C4A 1.476 (4) C315—C316 1.394 (4)
C4A—C8A 1.385 (4) C315—H315 0.9500
C4A—C5 1.401 (4) C316—H316 0.9500
C5—C6 1.381 (4)
C2—O1—C8A 118.3 (2) C7—C8—C8A 117.7 (3)
C31—N3—C311 125.6 (2) C7—C8—H8 121.2
C31—N3—H3 118 (2) C8A—C8—H8 121.2
C311—N3—H3 116 (2) C4A—C8A—O1 120.9 (3)
O31—N31—O32 122.1 (2) C4A—C8A—C8 123.0 (3)
O31—N31—C312 119.0 (2) O1—C8A—C8 116.1 (3)
O32—N31—C312 118.9 (2) O3—C31—N3 125.1 (3)
O1—C2—C3 125.9 (3) O3—C31—C3 120.4 (3)
O1—C2—H2 117.1 N3—C31—C3 114.5 (2)
C3—C2—H2 117.1 C316—C311—N3 121.3 (3)
C2—C3—C4 119.6 (3) C316—C311—C312 117.0 (3)
C2—C3—C31 115.4 (3) N3—C311—C312 121.8 (3)
C4—C3—C31 125.0 (3) C313—C312—C311 122.0 (3)
O4—C4—C3 124.2 (3) C313—C312—N31 115.9 (3)
O4—C4—C4A 121.8 (3) C311—C312—N31 122.0 (2)
C3—C4—C4A 114.0 (2) C314—C313—C312 119.5 (3)
C8A—C4A—C5 118.0 (3) C314—C313—H313 120.2
C8A—C4A—C4 121.3 (3) C312—C313—H313 120.2
C5—C4A—C4 120.7 (3) C313—C314—C315 119.7 (3)
C6—C5—C4A 120.1 (3) C313—C314—H314 120.2
C6—C5—H5 120.0 C315—C314—H314 120.2
C4A—C5—H5 120.0 C314—C315—C316 121.1 (3)
C5—C6—C7 120.5 (3) C314—C315—H315 119.5
C5—C6—H6 119.8 C316—C315—H315 119.5
C7—C6—H6 119.8 C315—C316—C311 120.7 (3)
C8—C7—C6 120.7 (3) C315—C316—H316 119.7
C8—C7—H7 119.6 C311—C316—H316 119.7
C6—C7—H7 119.6
C8A—O1—C2—C3 −0.6 (4) C311—N3—C31—O3 −3.2 (5)
O1—C2—C3—C4 −0.9 (5) C311—N3—C31—C3 178.5 (3)
O1—C2—C3—C31 178.3 (3) C2—C3—C31—O3 −1.0 (4)
C2—C3—C4—O4 −178.8 (3) C4—C3—C31—O3 178.1 (3)
C31—C3—C4—O4 2.0 (5) C2—C3—C31—N3 177.3 (3)
C2—C3—C4—C4A 1.3 (4) C4—C3—C31—N3 −3.5 (4)
C31—C3—C4—C4A −177.9 (3) C31—N3—C311—C316 −32.2 (4)
O4—C4—C4A—C8A 179.8 (3) C31—N3—C311—C312 149.8 (3)
C3—C4—C4A—C8A −0.3 (4) C316—C311—C312—C313 0.1 (4)
O4—C4—C4A—C5 −0.7 (4) N3—C311—C312—C313 178.1 (3)
C3—C4—C4A—C5 179.2 (3) C316—C311—C312—N31 179.4 (3)
C8A—C4A—C5—C6 0.7 (4) N3—C311—C312—N31 −2.6 (4)
C4—C4A—C5—C6 −178.8 (3) O31—N31—C312—C313 17.2 (4)
C4A—C5—C6—C7 −0.8 (4) O32—N31—C312—C313 −161.3 (3)
C5—C6—C7—C8 0.1 (5) O31—N31—C312—C311 −162.2 (3)
C6—C7—C8—C8A 0.8 (4) O32—N31—C312—C311 19.3 (4)
C5—C4A—C8A—O1 179.3 (3) C311—C312—C313—C314 −0.8 (4)
C4—C4A—C8A—O1 −1.2 (4) N31—C312—C313—C314 179.8 (3)
C5—C4A—C8A—C8 0.2 (4) C312—C313—C314—C315 0.6 (4)
C4—C4A—C8A—C8 179.7 (3) C313—C314—C315—C316 0.3 (5)
C2—O1—C8A—C4A 1.7 (4) C314—C315—C316—C311 −1.1 (5)
C2—O1—C8A—C8 −179.2 (3) N3—C311—C316—C315 −177.2 (3)
C7—C8—C8A—C4A −0.9 (5) C312—C311—C316—C315 0.8 (4)
C7—C8—C8A—O1 179.9 (3)
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(2b) N-(2-Nitrophenyl)-4-oxo-4H-chromene-3-carboxamide . Hydrogen-bond geometry (Å, º)

D—H···A D—H H···A D···A D—H···A
N3—H3···O4 0.96 (4) 1.95 (4) 2.718 (3) 136 (3)
N3—H3···O32 0.96 (4) 1.96 (4) 2.633 (3) 126 (3)
C316—H316···O3 0.95 2.40 2.902 (4) 113
C8—H8···O32i 0.95 2.58 3.210 (4) 124
C5—H5···O1ii 0.95 2.60 3.375 (4) 139
C313—H313···O3iii 0.95 2.49 3.299 (4) 143
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Symmetry codes: (i) −x, y+1/2, −z+1/2; (ii) −x, y−1/2, −z+1/2; (iii) −x+1, y−1/2, −z+3/2.

(3a) N-(3-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Crystal data

C17H13NO4 F(000) = 616
Mr = 295.28 Dx = 1.487 Mg m3
Monoclinic, P21/n Mo Kα radiation, λ = 0.71075 Å
a = 9.6903 (2) Å Cell parameters from 7535 reflections
b = 5.5303 (4) Å θ = 2.4–27.5°
c = 24.9335 (18) Å µ = 0.11 mm1
β = 99.162 (5)° T = 100 K
V = 1319.15 (14) Å3 Plate, yellow
Z = 4 0.16 × 0.11 × 0.02 mm
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(3a) N-(3-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Data collection

Rigaku Saturn724+ (2x2 bin mode) diffractometer 2665 independent reflections
Graphite Monochromator monochromator 1952 reflections with I > 2σ(I)
Detector resolution: 28.5714 pixels mm-1 Rint = 0.055
profile data from ω–scans θmax = 26.4°, θmin = 3.0°
Absorption correction: multi-scan (CrystalClear-SM Expert; Rigaku, 2012) h = −8→12
Tmin = 0.983, Tmax = 0.998 k = −6→4
7859 measured reflections l = −31→31
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(3a) N-(3-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Refinement

Refinement on F2 0 restraints
Least-squares matrix: full Hydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.041 H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.108 w = 1/[σ2(Fo2) + (0.0608P)2] where P = (Fo2 + 2Fc2)/3
S = 0.98 (Δ/σ)max < 0.001
2665 reflections Δρmax = 0.27 e Å3
205 parameters Δρmin = −0.28 e Å3
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(3a) N-(3-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Special details

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.
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(3a) N-(3-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
O1 0.26521 (11) 0.7928 (2) 0.57868 (4) 0.0171 (3)
O3 0.44760 (12) 0.7936 (2) 0.44346 (5) 0.0232 (3)
O4 0.18474 (11) 0.2131 (2) 0.47561 (5) 0.0180 (3)
O31 0.59354 (12) 0.7141 (2) 0.26613 (5) 0.0203 (3)
N3 0.35790 (14) 0.4246 (3) 0.41394 (6) 0.0165 (3)
H3 0.301 (2) 0.299 (4) 0.4246 (9) 0.041 (6)*
C2 0.32706 (16) 0.7700 (3) 0.53426 (7) 0.0161 (4)
H2 0.3919 0.8917 0.5280 0.022 (5)*
C3 0.30423 (16) 0.5879 (3) 0.49791 (6) 0.0142 (4)
C4 0.20852 (16) 0.3913 (3) 0.50574 (6) 0.0142 (4)
C4A 0.13765 (16) 0.4230 (3) 0.55341 (6) 0.0145 (4)
C5 0.03520 (16) 0.2597 (3) 0.56506 (7) 0.0166 (4)
H5 0.0134 0.1214 0.5427 0.020*
C6 −0.03398 (17) 0.2980 (3) 0.60851 (7) 0.0171 (4)
H6 −0.1032 0.1868 0.6159 0.020*
C7 −0.00212 (17) 0.5010 (3) 0.64171 (7) 0.0187 (4)
H7 −0.0508 0.5275 0.6714 0.022*
C8 0.09905 (17) 0.6627 (3) 0.63182 (7) 0.0177 (4)
H8 0.1221 0.7986 0.6548 0.021*
C8A 0.16685 (16) 0.6224 (3) 0.58735 (7) 0.0152 (4)
C31 0.37825 (16) 0.6126 (3) 0.44949 (6) 0.0159 (4)
C311 0.39490 (16) 0.4120 (3) 0.36136 (6) 0.0158 (4)
C312 0.48345 (16) 0.5805 (3) 0.34230 (7) 0.0158 (4)
H312 0.5242 0.7080 0.3650 0.019*
C313 0.51050 (16) 0.5572 (3) 0.28940 (7) 0.0160 (4)
C314 0.45126 (17) 0.3717 (3) 0.25555 (7) 0.0181 (4)
H314 0.4695 0.3599 0.2193 0.022*
C315 0.36543 (17) 0.2046 (3) 0.27535 (7) 0.0190 (4)
H315 0.3256 0.0763 0.2527 0.023*
C316 0.33721 (17) 0.2231 (3) 0.32799 (7) 0.0181 (4)
H316 0.2787 0.1074 0.3413 0.022*
C317 0.67728 (17) 0.8800 (3) 0.30136 (7) 0.0203 (4)
H31A 0.7369 0.9724 0.2805 0.030*
H31B 0.7359 0.7902 0.3303 0.030*
H31C 0.6164 0.9911 0.3174 0.030*
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(3a) N-(3-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
O1 0.0184 (6) 0.0160 (6) 0.0181 (6) −0.0038 (5) 0.0064 (5) −0.0022 (5)
O3 0.0268 (7) 0.0212 (7) 0.0243 (7) −0.0100 (6) 0.0118 (5) −0.0044 (5)
O4 0.0198 (6) 0.0159 (6) 0.0192 (6) −0.0040 (5) 0.0059 (5) −0.0033 (5)
O31 0.0223 (6) 0.0216 (7) 0.0188 (6) −0.0063 (5) 0.0087 (5) −0.0010 (5)
N3 0.0148 (7) 0.0169 (8) 0.0192 (8) −0.0037 (6) 0.0064 (6) −0.0013 (6)
C2 0.0131 (8) 0.0182 (9) 0.0174 (9) −0.0007 (7) 0.0036 (7) 0.0043 (7)
C3 0.0110 (8) 0.0155 (8) 0.0162 (8) 0.0008 (7) 0.0019 (6) 0.0021 (7)
C4 0.0121 (8) 0.0160 (9) 0.0136 (8) 0.0028 (7) −0.0011 (6) 0.0031 (7)
C4A 0.0119 (8) 0.0149 (8) 0.0165 (8) 0.0022 (7) 0.0012 (6) 0.0022 (7)
C5 0.0144 (8) 0.0162 (9) 0.0184 (9) −0.0013 (7) 0.0001 (7) 0.0020 (7)
C6 0.0133 (8) 0.0195 (9) 0.0185 (9) −0.0010 (7) 0.0026 (7) 0.0056 (7)
C7 0.0172 (9) 0.0224 (10) 0.0171 (9) 0.0040 (7) 0.0049 (7) 0.0043 (7)
C8 0.0199 (9) 0.0152 (9) 0.0176 (9) 0.0020 (7) 0.0020 (7) −0.0010 (7)
C8A 0.0119 (8) 0.0150 (9) 0.0183 (8) −0.0009 (7) 0.0015 (6) 0.0050 (7)
C31 0.0118 (8) 0.0171 (9) 0.0185 (9) 0.0001 (7) 0.0012 (6) 0.0021 (7)
C311 0.0123 (8) 0.0175 (9) 0.0179 (9) 0.0032 (7) 0.0037 (6) 0.0009 (7)
C312 0.0123 (8) 0.0162 (9) 0.0188 (9) −0.0007 (7) 0.0026 (6) −0.0006 (7)
C313 0.0108 (8) 0.0166 (9) 0.0213 (9) 0.0024 (7) 0.0047 (6) 0.0023 (7)
C314 0.0172 (9) 0.0209 (9) 0.0169 (8) 0.0036 (7) 0.0049 (7) −0.0003 (7)
C315 0.0168 (9) 0.0185 (9) 0.0214 (9) −0.0011 (7) 0.0024 (7) −0.0050 (7)
C316 0.0152 (8) 0.0167 (9) 0.0235 (9) −0.0018 (7) 0.0068 (7) −0.0004 (7)
C317 0.0174 (9) 0.0210 (10) 0.0232 (9) −0.0051 (7) 0.0056 (7) −0.0001 (8)
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(3a) N-(3-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Geometric parameters (Å, º)

O1—C2 1.3464 (18) C6—H6 0.9500
O1—C8A 1.3815 (19) C7—C8 1.378 (2)
O3—C31 1.228 (2) C7—H7 0.9500
O4—C4 1.239 (2) C8—C8A 1.394 (2)
O31—C313 1.3733 (19) C8—H8 0.9500
O31—C317 1.430 (2) C311—C316 1.396 (2)
N3—C31 1.360 (2) C311—C312 1.400 (2)
N3—C311 1.4146 (19) C312—C313 1.391 (2)
N3—H3 0.95 (2) C312—H312 0.9500
C2—C3 1.349 (2) C313—C314 1.393 (2)
C2—H2 0.9500 C314—C315 1.386 (2)
C3—C4 1.462 (2) C314—H314 0.9500
C3—C31 1.506 (2) C315—C316 1.386 (2)
C4—C4A 1.475 (2) C315—H315 0.9500
C4A—C8A 1.391 (2) C316—H316 0.9500
C4A—C5 1.406 (2) C317—H31A 0.9800
C5—C6 1.378 (2) C317—H31B 0.9800
C5—H5 0.9500 C317—H31C 0.9800
C6—C7 1.400 (2)
C2—O1—C8A 118.25 (13) O1—C8A—C8 116.09 (14)
C313—O31—C317 117.35 (13) C4A—C8A—C8 122.32 (15)
C31—N3—C311 127.55 (14) O3—C31—N3 124.66 (14)
C31—N3—H3 114.0 (13) O3—C31—C3 120.80 (15)
C311—N3—H3 117.9 (13) N3—C31—C3 114.51 (14)
O1—C2—C3 125.13 (15) C316—C311—C312 120.30 (14)
O1—C2—H2 117.4 C316—C311—N3 116.92 (14)
C3—C2—H2 117.4 C312—C311—N3 122.78 (15)
C2—C3—C4 120.32 (14) C313—C312—C311 118.59 (15)
C2—C3—C31 115.01 (15) C313—C312—H312 120.7
C4—C3—C31 124.61 (14) C311—C312—H312 120.7
O4—C4—C3 124.85 (14) O31—C313—C312 123.62 (15)
O4—C4—C4A 121.19 (14) O31—C313—C314 114.96 (14)
C3—C4—C4A 113.96 (14) C312—C313—C314 121.40 (15)
C8A—C4A—C5 117.72 (14) C315—C314—C313 119.22 (15)
C8A—C4A—C4 120.57 (14) C315—C314—H314 120.4
C5—C4A—C4 121.67 (15) C313—C314—H314 120.4
C6—C5—C4A 120.76 (16) C314—C315—C316 120.53 (16)
C6—C5—H5 119.6 C314—C315—H315 119.7
C4A—C5—H5 119.6 C316—C315—H315 119.7
C5—C6—C7 119.94 (15) C315—C316—C311 119.94 (15)
C5—C6—H6 120.0 C315—C316—H316 120.0
C7—C6—H6 120.0 C311—C316—H316 120.0
C8—C7—C6 120.73 (15) O31—C317—H31A 109.5
C8—C7—H7 119.6 O31—C317—H31B 109.5
C6—C7—H7 119.6 H31A—C317—H31B 109.5
C7—C8—C8A 118.52 (15) O31—C317—H31C 109.5
C7—C8—H8 120.7 H31A—C317—H31C 109.5
C8A—C8—H8 120.7 H31B—C317—H31C 109.5
O1—C8A—C4A 121.59 (14)
C8A—O1—C2—C3 −2.3 (2) C7—C8—C8A—O1 178.69 (14)
O1—C2—C3—C4 −1.6 (3) C7—C8—C8A—C4A −1.2 (3)
O1—C2—C3—C31 175.74 (14) C311—N3—C31—O3 −8.8 (3)
C2—C3—C4—O4 −177.46 (16) C311—N3—C31—C3 169.44 (14)
C31—C3—C4—O4 5.5 (3) C2—C3—C31—O3 −3.5 (2)
C2—C3—C4—C4A 3.5 (2) C4—C3—C31—O3 173.63 (15)
C31—C3—C4—C4A −173.52 (14) C2—C3—C31—N3 178.11 (15)
O4—C4—C4A—C8A 179.08 (15) C4—C3—C31—N3 −4.7 (2)
C3—C4—C4A—C8A −1.8 (2) C31—N3—C311—C316 −166.55 (16)
O4—C4—C4A—C5 −3.4 (2) C31—N3—C311—C312 12.6 (2)
C3—C4—C4A—C5 175.72 (14) C316—C311—C312—C313 1.0 (2)
C8A—C4A—C5—C6 0.4 (2) N3—C311—C312—C313 −178.12 (14)
C4—C4A—C5—C6 −177.26 (15) C317—O31—C313—C312 12.6 (2)
C4A—C5—C6—C7 −0.2 (2) C317—O31—C313—C314 −168.72 (14)
C5—C6—C7—C8 −0.7 (3) C311—C312—C313—O31 178.79 (15)
C6—C7—C8—C8A 1.3 (2) C311—C312—C313—C314 0.2 (2)
C2—O1—C8A—C4A 4.0 (2) O31—C313—C314—C315 −179.81 (14)
C2—O1—C8A—C8 −175.85 (14) C312—C313—C314—C315 −1.1 (2)
C5—C4A—C8A—O1 −179.53 (14) C313—C314—C315—C316 0.8 (2)
C4—C4A—C8A—O1 −1.9 (2) C314—C315—C316—C311 0.3 (2)
C5—C4A—C8A—C8 0.4 (2) C312—C311—C316—C315 −1.2 (2)
C4—C4A—C8A—C8 178.01 (15) N3—C311—C316—C315 177.90 (15)
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(3a) N-(3-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Hydrogen-bond geometry (Å, º)

D—H···A D—H H···A D···A D—H···A
N3—H3···O4 0.95 (2) 1.89 (2) 2.7147 (17) 143.8 (18)
C312—H312···O3 0.95 2.25 2.855 (2) 121
C2—H2···O3i 0.95 2.37 3.243 (2) 153
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Symmetry code: (i) −x+1, −y+2, −z+1.

(3b) N-(3-Bromophenyl)-4-oxo-4H-chromene-3-carboxamide . Crystal data

C16H10BrNO3 Z = 4
Mr = 344.16 F(000) = 688
Triclinic, P1 Dx = 1.759 Mg m3
a = 6.7435 (1) Å Mo Kα radiation, λ = 0.71075 Å
b = 7.3012 (1) Å Cell parameters from 6848 reflections
c = 28.0740 (9) Å θ = 1.5–27.5°
α = 85.309 (4)° µ = 3.17 mm1
β = 89.164 (4)° T = 120 K
γ = 70.645 (3)° Plate, colourless
V = 1299.64 (5) Å3 0.38 × 0.34 × 0.06 mm
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(3b) N-(3-Bromophenyl)-4-oxo-4H-chromene-3-carboxamide . Data collection

Rigaku RAXIS conversion diffractometer 5939 independent reflections
Radiation source: Sealed Tube 5633 reflections with I > 2σ(I)
Graphite Monochromator monochromator Rint = 0.045
Detector resolution: 10.0000 pixels mm-1 θmax = 27.5°, θmin = 1.5°
profile data from ω–scans h = −7→8
Absorption correction: multi-scan (CrystalClear-SM Expert; Rigaku, 2012) k = −9→9
Tmin = 0.379, Tmax = 0.833 l = −36→36
16781 measured reflections
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(3b) N-(3-Bromophenyl)-4-oxo-4H-chromene-3-carboxamide . Refinement

Refinement on F2 0 restraints
Least-squares matrix: full Hydrogen site location: inferred from neighbouring sites
R[F2 > 2σ(F2)] = 0.044 H-atom parameters constrained
wR(F2) = 0.116 w = 1/[σ2(Fo2) + (0.0487P)2 + 2.2824P] where P = (Fo2 + 2Fc2)/3
S = 1.08 (Δ/σ)max = 0.001
5939 reflections Δρmax = 1.79 e Å3
379 parameters Δρmin = −0.86 e Å3
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(3b) N-(3-Bromophenyl)-4-oxo-4H-chromene-3-carboxamide . Special details

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.
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(3b) N-(3-Bromophenyl)-4-oxo-4H-chromene-3-carboxamide . Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
Br13 0.19823 (5) 0.50533 (5) 0.21591 (2) 0.02468 (10)
O11 0.1612 (3) 0.1960 (3) −0.09282 (8) 0.0234 (5)
O14 0.7153 (3) 0.1950 (3) −0.03480 (8) 0.0242 (5)
O131 0.1525 (4) 0.3349 (4) 0.04468 (8) 0.0256 (5)
N13 0.5020 (4) 0.3021 (4) 0.04552 (9) 0.0199 (5)
H13 0.6134 0.2758 0.0272 0.024*
C12 0.1726 (5) 0.2403 (4) −0.04764 (10) 0.0213 (6)
H12 0.0470 0.2721 −0.0297 0.026*
C13 0.3488 (5) 0.2431 (4) −0.02576 (10) 0.0187 (6)
C14 0.5473 (5) 0.1936 (4) −0.05181 (10) 0.0182 (6)
C14A 0.5333 (5) 0.1413 (4) −0.10070 (10) 0.0193 (6)
C15 0.7097 (5) 0.0851 (4) −0.12974 (11) 0.0217 (6)
H15 0.8429 0.0789 −0.1177 0.026*
C16 0.6925 (5) 0.0387 (5) −0.17555 (11) 0.0258 (7)
H16 0.8131 0.0022 −0.1951 0.031*
C17 0.4978 (5) 0.0448 (5) −0.19347 (11) 0.0248 (6)
H17 0.4873 0.0114 −0.2251 0.030*
C18 0.3209 (5) 0.0991 (4) −0.16563 (11) 0.0227 (6)
H18 0.1882 0.1043 −0.1778 0.027*
C18A 0.3417 (5) 0.1459 (4) −0.11934 (10) 0.0203 (6)
C131 0.5316 (5) 0.3428 (4) 0.09256 (10) 0.0185 (6)
C132 0.3685 (5) 0.4007 (4) 0.12504 (10) 0.0190 (6)
H132 0.2278 0.4166 0.1163 0.023*
C133 0.4191 (5) 0.4344 (4) 0.17065 (10) 0.0203 (6)
C134 0.6201 (5) 0.4156 (4) 0.18499 (11) 0.0224 (6)
H134 0.6488 0.4403 0.2164 0.027*
C135 0.7799 (5) 0.3588 (5) 0.15156 (11) 0.0234 (6)
H135 0.9200 0.3447 0.1604 0.028*
C136 0.7379 (5) 0.3226 (4) 0.10580 (11) 0.0217 (6)
H136 0.8483 0.2842 0.0835 0.026*
C137 0.3224 (5) 0.2985 (4) 0.02492 (10) 0.0192 (6)
Br23 −0.07137 (5) 1.08718 (5) 0.28460 (2) 0.02772 (10)
O21 −0.0747 (3) 0.5655 (3) 0.59280 (7) 0.0223 (4)
O24 0.4533 (4) 0.6676 (3) 0.54070 (8) 0.0259 (5)
O231 −0.1079 (4) 0.8225 (4) 0.45807 (8) 0.0276 (5)
N23 0.2310 (4) 0.8203 (4) 0.45937 (9) 0.0218 (5)
H23 0.3452 0.7817 0.4775 0.026*
C22 −0.0700 (5) 0.6501 (4) 0.54886 (10) 0.0211 (6)
H22 −0.1952 0.6861 0.5301 0.025*
C23 0.0968 (5) 0.6891 (4) 0.52871 (10) 0.0202 (6)
C24 0.2927 (5) 0.6380 (4) 0.55608 (11) 0.0204 (6)
C24A 0.2867 (5) 0.5466 (4) 0.60466 (10) 0.0197 (6)
C25 0.4612 (5) 0.4903 (4) 0.63557 (11) 0.0224 (6)
H25 0.5876 0.5111 0.6254 0.027*
C26 0.4502 (5) 0.4048 (5) 0.68070 (11) 0.0249 (6)
H26 0.5692 0.3671 0.7015 0.030*
C27 0.2653 (5) 0.3732 (5) 0.69597 (11) 0.0244 (6)
H27 0.2594 0.3149 0.7272 0.029*
C28 0.0911 (5) 0.4256 (5) 0.66619 (11) 0.0231 (6)
H28 −0.0345 0.4031 0.6763 0.028*
C28A 0.1050 (5) 0.5124 (4) 0.62079 (10) 0.0206 (6)
C231 0.2488 (5) 0.9119 (4) 0.41434 (11) 0.0213 (6)
C232 0.0957 (5) 0.9487 (4) 0.37790 (10) 0.0212 (6)
H232 −0.0274 0.9138 0.3826 0.025*
C233 0.1333 (5) 1.0386 (5) 0.33470 (11) 0.0230 (6)
C234 0.3077 (5) 1.0949 (5) 0.32614 (11) 0.0253 (6)
H234 0.3257 1.1583 0.2963 0.030*
C235 0.4566 (5) 1.0555 (5) 0.36291 (12) 0.0259 (7)
H235 0.5788 1.0917 0.3580 0.031*
C236 0.4281 (5) 0.9640 (5) 0.40655 (11) 0.0239 (6)
H236 0.5315 0.9367 0.4312 0.029*
C237 0.0609 (5) 0.7833 (4) 0.47874 (10) 0.0208 (6)
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(3b) N-(3-Bromophenyl)-4-oxo-4H-chromene-3-carboxamide . Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
Br13 0.02787 (18) 0.03148 (18) 0.01601 (16) −0.01088 (13) 0.00215 (11) −0.00539 (12)
O11 0.0200 (11) 0.0311 (12) 0.0190 (10) −0.0076 (9) −0.0011 (8) −0.0052 (9)
O14 0.0211 (11) 0.0323 (12) 0.0204 (11) −0.0096 (9) 0.0003 (8) −0.0056 (9)
O131 0.0242 (11) 0.0364 (13) 0.0187 (10) −0.0122 (10) 0.0021 (8) −0.0068 (9)
N13 0.0217 (13) 0.0238 (13) 0.0145 (11) −0.0073 (10) 0.0007 (9) −0.0039 (9)
C12 0.0237 (15) 0.0239 (15) 0.0160 (13) −0.0072 (12) 0.0009 (11) −0.0038 (11)
C13 0.0200 (14) 0.0178 (13) 0.0183 (13) −0.0062 (11) −0.0012 (10) −0.0016 (10)
C14 0.0221 (14) 0.0149 (13) 0.0169 (13) −0.0054 (11) −0.0001 (10) −0.0002 (10)
C14A 0.0245 (15) 0.0157 (13) 0.0174 (13) −0.0063 (11) 0.0011 (11) −0.0006 (10)
C15 0.0210 (15) 0.0207 (14) 0.0227 (15) −0.0061 (11) 0.0019 (11) −0.0015 (11)
C16 0.0332 (17) 0.0206 (15) 0.0210 (15) −0.0051 (12) 0.0065 (12) −0.0039 (11)
C17 0.0367 (18) 0.0205 (15) 0.0155 (14) −0.0070 (13) −0.0001 (12) −0.0027 (11)
C18 0.0271 (16) 0.0200 (14) 0.0190 (14) −0.0052 (12) −0.0045 (11) −0.0008 (11)
C18A 0.0265 (15) 0.0173 (13) 0.0155 (13) −0.0052 (11) −0.0008 (11) 0.0001 (10)
C131 0.0253 (15) 0.0158 (13) 0.0148 (13) −0.0075 (11) −0.0018 (11) 0.0000 (10)
C132 0.0221 (14) 0.0183 (14) 0.0164 (13) −0.0067 (11) −0.0004 (11) −0.0004 (10)
C133 0.0247 (15) 0.0177 (13) 0.0177 (14) −0.0055 (11) −0.0009 (11) −0.0023 (10)
C134 0.0292 (16) 0.0195 (14) 0.0180 (14) −0.0069 (12) −0.0052 (11) −0.0024 (11)
C135 0.0196 (15) 0.0237 (15) 0.0276 (16) −0.0077 (12) −0.0059 (11) −0.0026 (12)
C136 0.0212 (15) 0.0223 (15) 0.0217 (14) −0.0072 (11) 0.0006 (11) −0.0016 (11)
C137 0.0226 (14) 0.0177 (14) 0.0169 (13) −0.0059 (11) −0.0011 (11) −0.0016 (10)
Br23 0.02983 (19) 0.03229 (19) 0.01703 (16) −0.00573 (13) −0.00026 (12) 0.00149 (12)
O21 0.0225 (11) 0.0276 (11) 0.0171 (10) −0.0087 (9) −0.0008 (8) −0.0010 (8)
O24 0.0219 (11) 0.0330 (13) 0.0234 (11) −0.0108 (9) −0.0011 (8) 0.0012 (9)
O231 0.0235 (12) 0.0375 (13) 0.0202 (11) −0.0089 (10) −0.0036 (9) 0.0018 (9)
N23 0.0230 (13) 0.0256 (13) 0.0151 (11) −0.0061 (10) −0.0028 (9) 0.0005 (10)
C22 0.0247 (15) 0.0206 (14) 0.0169 (13) −0.0057 (11) 0.0007 (11) −0.0039 (11)
C23 0.0229 (15) 0.0192 (14) 0.0164 (13) −0.0038 (11) −0.0002 (11) −0.0029 (11)
C24 0.0218 (15) 0.0175 (13) 0.0203 (14) −0.0039 (11) 0.0002 (11) −0.0040 (11)
C24A 0.0220 (14) 0.0170 (13) 0.0192 (14) −0.0046 (11) 0.0007 (11) −0.0041 (10)
C25 0.0223 (15) 0.0206 (14) 0.0230 (15) −0.0046 (11) −0.0018 (11) −0.0048 (11)
C26 0.0281 (16) 0.0216 (15) 0.0228 (15) −0.0046 (12) −0.0040 (12) −0.0046 (12)
C27 0.0324 (17) 0.0221 (15) 0.0160 (14) −0.0056 (12) 0.0003 (12) −0.0012 (11)
C28 0.0262 (16) 0.0231 (15) 0.0196 (14) −0.0072 (12) 0.0022 (11) −0.0035 (11)
C28A 0.0213 (14) 0.0201 (14) 0.0188 (14) −0.0039 (11) −0.0013 (11) −0.0042 (11)
C231 0.0247 (15) 0.0174 (14) 0.0191 (14) −0.0030 (11) 0.0021 (11) −0.0026 (11)
C232 0.0245 (15) 0.0185 (14) 0.0183 (14) −0.0039 (11) 0.0022 (11) −0.0018 (11)
C233 0.0219 (15) 0.0219 (15) 0.0204 (14) −0.0007 (11) 0.0027 (11) −0.0026 (11)
C234 0.0273 (16) 0.0222 (15) 0.0229 (15) −0.0040 (12) 0.0069 (12) −0.0010 (12)
C235 0.0272 (16) 0.0223 (15) 0.0281 (16) −0.0076 (12) 0.0073 (12) −0.0060 (12)
C236 0.0240 (15) 0.0225 (15) 0.0245 (15) −0.0065 (12) 0.0006 (12) −0.0039 (12)
C237 0.0247 (15) 0.0194 (14) 0.0169 (13) −0.0050 (11) −0.0003 (11) −0.0030 (11)
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(3b) N-(3-Bromophenyl)-4-oxo-4H-chromene-3-carboxamide . Geometric parameters (Å, º)

Br13—C133 1.909 (3) Br23—C233 1.913 (3)
O11—C12 1.344 (4) O21—C22 1.339 (4)
O11—C18A 1.376 (4) O21—C28A 1.380 (4)
O14—C14 1.240 (4) O24—C24 1.238 (4)
O131—C137 1.223 (4) O231—C237 1.221 (4)
N13—C137 1.359 (4) N23—C237 1.359 (4)
N13—C131 1.408 (4) N23—C231 1.404 (4)
N13—H13 0.8800 N23—H23 0.8800
C12—C13 1.352 (4) C22—C23 1.354 (4)
C12—H12 0.9500 C22—H22 0.9500
C13—C14 1.467 (4) C23—C24 1.460 (4)
C13—C137 1.503 (4) C23—C237 1.497 (4)
C14—C14A 1.467 (4) C24—C24A 1.475 (4)
C14A—C18A 1.390 (4) C24A—C28A 1.391 (4)
C14A—C15 1.397 (4) C24A—C25 1.399 (4)
C15—C16 1.373 (4) C25—C26 1.378 (5)
C15—H15 0.9500 C25—H25 0.9500
C16—C17 1.398 (5) C26—C27 1.397 (5)
C16—H16 0.9500 C26—H26 0.9500
C17—C18 1.379 (5) C27—C28 1.380 (5)
C17—H17 0.9500 C27—H27 0.9500
C18—C18A 1.391 (4) C28—C28A 1.393 (4)
C18—H18 0.9500 C28—H28 0.9500
C131—C132 1.395 (4) C231—C236 1.392 (5)
C131—C136 1.402 (4) C231—C232 1.409 (4)
C132—C133 1.391 (4) C232—C233 1.392 (4)
C132—H132 0.9500 C232—H232 0.9500
C133—C134 1.379 (5) C233—C234 1.380 (5)
C134—C135 1.397 (5) C234—C235 1.395 (5)
C134—H134 0.9500 C234—H234 0.9500
C135—C136 1.384 (4) C235—C236 1.389 (5)
C135—H135 0.9500 C235—H235 0.9500
C136—H136 0.9500 C236—H236 0.9500
C12—O11—C18A 118.6 (2) C22—O21—C28A 118.1 (2)
C137—N13—C131 128.0 (3) C237—N23—C231 128.6 (3)
C137—N13—H13 116.0 C237—N23—H23 115.7
C131—N13—H13 116.0 C231—N23—H23 115.7
O11—C12—C13 125.2 (3) O21—C22—C23 126.0 (3)
O11—C12—H12 117.4 O21—C22—H22 117.0
C13—C12—H12 117.4 C23—C22—H22 117.0
C12—C13—C14 119.6 (3) C22—C23—C24 119.3 (3)
C12—C13—C137 115.5 (3) C22—C23—C237 115.3 (3)
C14—C13—C137 124.9 (3) C24—C23—C237 125.4 (3)
O14—C14—C13 123.9 (3) O24—C24—C23 124.0 (3)
O14—C14—C14A 121.5 (3) O24—C24—C24A 121.4 (3)
C13—C14—C14A 114.6 (3) C23—C24—C24A 114.6 (3)
C18A—C14A—C15 118.1 (3) C28A—C24A—C25 118.1 (3)
C18A—C14A—C14 120.3 (3) C28A—C24A—C24 120.2 (3)
C15—C14A—C14 121.6 (3) C25—C24A—C24 121.7 (3)
C16—C15—C14A 120.6 (3) C26—C25—C24A 120.2 (3)
C16—C15—H15 119.7 C26—C25—H25 119.9
C14A—C15—H15 119.7 C24A—C25—H25 119.9
C15—C16—C17 120.2 (3) C25—C26—C27 120.4 (3)
C15—C16—H16 119.9 C25—C26—H26 119.8
C17—C16—H16 119.9 C27—C26—H26 119.8
C18—C17—C16 120.6 (3) C28—C27—C26 120.8 (3)
C18—C17—H17 119.7 C28—C27—H27 119.6
C16—C17—H17 119.7 C26—C27—H27 119.6
C17—C18—C18A 118.3 (3) C27—C28—C28A 117.9 (3)
C17—C18—H18 120.8 C27—C28—H28 121.0
C18A—C18—H18 120.8 C28A—C28—H28 121.0
O11—C18A—C14A 121.8 (3) O21—C28A—C24A 121.8 (3)
O11—C18A—C18 116.0 (3) O21—C28A—C28 115.6 (3)
C14A—C18A—C18 122.2 (3) C24A—C28A—C28 122.6 (3)
C132—C131—C136 120.4 (3) C236—C231—N23 116.9 (3)
C132—C131—N13 123.3 (3) C236—C231—C232 120.5 (3)
C136—C131—N13 116.3 (3) N23—C231—C232 122.5 (3)
C133—C132—C131 117.7 (3) C233—C232—C231 116.8 (3)
C133—C132—H132 121.2 C233—C232—H232 121.6
C131—C132—H132 121.2 C231—C232—H232 121.6
C134—C133—C132 123.5 (3) C234—C233—C232 124.0 (3)
C134—C133—Br13 118.6 (2) C234—C233—Br23 118.6 (2)
C132—C133—Br13 117.9 (2) C232—C233—Br23 117.4 (2)
C133—C134—C135 117.5 (3) C233—C234—C235 117.6 (3)
C133—C134—H134 121.3 C233—C234—H234 121.2
C135—C134—H134 121.3 C235—C234—H234 121.2
C136—C135—C134 121.2 (3) C236—C235—C234 120.7 (3)
C136—C135—H135 119.4 C236—C235—H235 119.6
C134—C135—H135 119.4 C234—C235—H235 119.6
C135—C136—C131 119.7 (3) C235—C236—C231 120.2 (3)
C135—C136—H136 120.2 C235—C236—H236 119.9
C131—C136—H136 120.2 C231—C236—H236 119.9
O131—C137—N13 124.8 (3) O231—C237—N23 124.2 (3)
O131—C137—C13 121.3 (3) O231—C237—C23 121.8 (3)
N13—C137—C13 113.8 (3) N23—C237—C23 114.0 (3)
C18A—O11—C12—C13 1.2 (5) C28A—O21—C22—C23 0.2 (4)
O11—C12—C13—C14 −0.5 (5) O21—C22—C23—C24 −0.4 (5)
O11—C12—C13—C137 179.6 (3) O21—C22—C23—C237 179.5 (3)
C12—C13—C14—O14 179.0 (3) C22—C23—C24—O24 179.9 (3)
C137—C13—C14—O14 −1.2 (5) C237—C23—C24—O24 0.0 (5)
C12—C13—C14—C14A −0.9 (4) C22—C23—C24—C24A −0.2 (4)
C137—C13—C14—C14A 179.0 (3) C237—C23—C24—C24A 179.9 (3)
O14—C14—C14A—C18A −178.3 (3) O24—C24—C24A—C28A −179.1 (3)
C13—C14—C14A—C18A 1.6 (4) C23—C24—C24A—C28A 1.1 (4)
O14—C14—C14A—C15 2.0 (5) O24—C24—C24A—C25 0.3 (4)
C13—C14—C14A—C15 −178.2 (3) C23—C24—C24A—C25 −179.5 (3)
C18A—C14A—C15—C16 0.9 (5) C28A—C24A—C25—C26 −0.4 (4)
C14—C14A—C15—C16 −179.3 (3) C24—C24A—C25—C26 −179.8 (3)
C14A—C15—C16—C17 −0.8 (5) C24A—C25—C26—C27 0.1 (5)
C15—C16—C17—C18 0.6 (5) C25—C26—C27—C28 0.4 (5)
C16—C17—C18—C18A −0.4 (5) C26—C27—C28—C28A −0.7 (5)
C12—O11—C18A—C14A −0.4 (4) C22—O21—C28A—C24A 0.7 (4)
C12—O11—C18A—C18 179.2 (3) C22—O21—C28A—C28 179.8 (3)
C15—C14A—C18A—O11 178.8 (3) C25—C24A—C28A—O21 179.2 (3)
C14—C14A—C18A—O11 −1.0 (4) C24—C24A—C28A—O21 −1.4 (4)
C15—C14A—C18A—C18 −0.8 (4) C25—C24A—C28A—C28 0.2 (4)
C14—C14A—C18A—C18 179.4 (3) C24—C24A—C28A—C28 179.6 (3)
C17—C18—C18A—O11 −179.0 (3) C27—C28—C28A—O21 −178.7 (3)
C17—C18—C18A—C14A 0.6 (5) C27—C28—C28A—C24A 0.3 (5)
C137—N13—C131—C132 −4.7 (5) C237—N23—C231—C236 168.5 (3)
C137—N13—C131—C136 175.4 (3) C237—N23—C231—C232 −12.4 (5)
C136—C131—C132—C133 −0.8 (4) C236—C231—C232—C233 −0.2 (4)
N13—C131—C132—C133 179.3 (3) N23—C231—C232—C233 −179.3 (3)
C131—C132—C133—C134 0.7 (5) C231—C232—C233—C234 −1.0 (4)
C131—C132—C133—Br13 −178.0 (2) C231—C232—C233—Br23 179.4 (2)
C132—C133—C134—C135 −0.3 (5) C232—C233—C234—C235 1.3 (5)
Br13—C133—C134—C135 178.4 (2) Br23—C233—C234—C235 −179.0 (2)
C133—C134—C135—C136 −0.1 (5) C233—C234—C235—C236 −0.4 (5)
C134—C135—C136—C131 −0.1 (5) C234—C235—C236—C231 −0.7 (5)
C132—C131—C136—C135 0.5 (5) N23—C231—C236—C235 −179.9 (3)
N13—C131—C136—C135 −179.6 (3) C232—C231—C236—C235 1.0 (4)
C131—N13—C137—O131 1.5 (5) C231—N23—C237—O231 2.0 (5)
C131—N13—C137—C13 −178.2 (3) C231—N23—C237—C23 −177.8 (3)
C12—C13—C137—O131 1.1 (4) C22—C23—C237—O231 0.4 (4)
C14—C13—C137—O131 −178.8 (3) C24—C23—C237—O231 −179.8 (3)
C12—C13—C137—N13 −179.2 (3) C22—C23—C237—N23 −179.8 (3)
C14—C13—C137—N13 0.9 (4) C24—C23—C237—N23 0.0 (4)
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(3b) N-(3-Bromophenyl)-4-oxo-4H-chromene-3-carboxamide . Hydrogen-bond geometry (Å, º)

D—H···A D—H H···A D···A D—H···A
N13—H13···O14 0.88 1.93 2.686 (3) 143
N23—H23···O24 0.88 1.94 2.698 (3) 143
C12—H12···O131 0.95 2.34 2.727 (4) 104
C22—H22···O231 0.95 2.33 2.725 (4) 104
C132—H132···O131 0.95 2.26 2.860 (4) 121
C232—H232···O231 0.95 2.28 2.865 (4) 119
C12—H12···O14i 0.95 2.49 3.221 (4) 134
C22—H22···O24i 0.95 2.43 3.185 (4) 136
C15—H15···O11ii 0.95 2.68 3.587 (4) 160
C25—H25···O21ii 0.95 2.58 3.530 (4) 177
C136—H136···O131ii 0.95 2.43 3.282 (4) 149
C236—H236···O231ii 0.95 2.41 3.270 (4) 151
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Symmetry codes: (i) x−1, y, z; (ii) x+1, y, z.

(4a) N-(4-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Crystal data

C17H13NO4 F(000) = 616
Mr = 295.28 Dx = 1.506 Mg m3
Monoclinic, P21/n Mo Kα radiation, λ = 0.71075 Å
a = 14.1629 (10) Å Cell parameters from 15826 reflections
b = 6.772 (5) Å θ = 2.6–27.5°
c = 15.1898 (11) Å µ = 0.11 mm1
β = 116.607 (11)° T = 100 K
V = 1302.6 (10) Å3 Plate, colourless
Z = 4 0.15 × 0.07 × 0.01 mm
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(4a) N-(4-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Data collection

Rigaku Saturn724+ (2x2 bin mode) diffractometer 2987 independent reflections
Graphite Monochromator monochromator 2617 reflections with I > 2σ(I)
Detector resolution: 28.5714 pixels mm-1 Rint = 0.042
profile data from ω–scans θmax = 27.5°, θmin = 2.7°
Absorption correction: multi-scan (CrystalClear-SM Expert; Rigaku, 2012) h = −18→16
Tmin = 0.984, Tmax = 0.999 k = −8→8
16554 measured reflections l = −19→19
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(4a) N-(4-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Refinement

Refinement on F2 0 restraints
Least-squares matrix: full Hydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.037 H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.103 w = 1/[σ2(Fo2) + (0.0587P)2 + 0.664P] where P = (Fo2 + 2Fc2)/3
S = 0.92 (Δ/σ)max = 0.005
2987 reflections Δρmax = 0.39 e Å3
204 parameters Δρmin = −0.18 e Å3
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(4a) N-(4-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Special details

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.
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(4a) N-(4-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
O1 0.61512 (6) 0.04824 (12) 0.04192 (6) 0.0222 (2)
O4 0.63888 (6) 0.60878 (12) 0.15264 (6) 0.0221 (2)
O314 0.64113 (7) 0.68423 (13) 0.66556 (6) 0.0260 (2)
O3 0.61112 (8) 0.10549 (13) 0.30685 (7) 0.0281 (2)
N3 0.63425 (8) 0.44104 (15) 0.31133 (7) 0.0206 (2)
H3 0.6347 (12) 0.541 (3) 0.2725 (12) 0.034 (4)*
C2 0.62017 (9) 0.08077 (18) 0.13108 (8) 0.0207 (2)
H2 0.6193 −0.0316 0.1681 0.025*
C3 0.62644 (8) 0.26035 (17) 0.17274 (8) 0.0196 (2)
C4 0.63203 (8) 0.43834 (17) 0.12051 (8) 0.0187 (2)
C4A 0.62683 (8) 0.40077 (17) 0.02284 (8) 0.0192 (2)
C5 0.62976 (9) 0.55604 (18) −0.03704 (9) 0.0219 (2)
H5 0.6382 0.6881 −0.0136 0.026*
C6 0.62051 (9) 0.51790 (19) −0.12981 (9) 0.0239 (3)
H6 0.6233 0.6235 −0.1697 0.029*
C7 0.60702 (9) 0.32347 (19) −0.16527 (9) 0.0241 (3)
H7 0.5993 0.2987 −0.2297 0.029*
C8 0.60487 (9) 0.16788 (18) −0.10756 (9) 0.0233 (3)
H8 0.5961 0.0361 −0.1314 0.028*
C8A 0.61592 (8) 0.20886 (17) −0.01329 (8) 0.0199 (2)
C31 0.62381 (9) 0.25962 (17) 0.27073 (9) 0.0206 (2)
C311 0.63093 (8) 0.49421 (17) 0.40033 (8) 0.0194 (2)
C312 0.64385 (9) 0.36073 (18) 0.47503 (8) 0.0218 (2)
H312 0.6515 0.2237 0.4665 0.026*
C313 0.64547 (9) 0.42952 (18) 0.56178 (9) 0.0221 (2)
H313 0.6542 0.3385 0.6125 0.027*
C314 0.63439 (9) 0.63048 (18) 0.57565 (8) 0.0207 (2)
C315 0.61990 (9) 0.76285 (17) 0.50058 (8) 0.0215 (2)
H315 0.6110 0.8996 0.5086 0.026*
C316 0.61854 (9) 0.69445 (17) 0.41378 (8) 0.0208 (2)
H316 0.6090 0.7854 0.3629 0.025*
C317 0.62986 (11) 0.88959 (19) 0.67957 (9) 0.0273 (3)
H31A 0.6389 0.9118 0.7466 0.041*
H31B 0.5594 0.9338 0.6321 0.041*
H31C 0.6835 0.9643 0.6696 0.041*
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(4a) N-(4-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
O1 0.0260 (4) 0.0173 (4) 0.0241 (4) −0.0006 (3) 0.0119 (3) −0.0015 (3)
O4 0.0272 (4) 0.0173 (4) 0.0224 (4) −0.0011 (3) 0.0116 (3) −0.0010 (3)
O314 0.0354 (5) 0.0222 (4) 0.0223 (4) 0.0018 (4) 0.0148 (4) 0.0009 (3)
O3 0.0406 (5) 0.0187 (4) 0.0294 (5) −0.0028 (4) 0.0195 (4) 0.0016 (3)
N3 0.0246 (5) 0.0176 (5) 0.0194 (5) −0.0011 (4) 0.0097 (4) 0.0011 (4)
C2 0.0205 (5) 0.0191 (5) 0.0222 (5) 0.0002 (4) 0.0092 (4) 0.0010 (4)
C3 0.0186 (5) 0.0182 (5) 0.0208 (5) 0.0003 (4) 0.0077 (4) 0.0007 (4)
C4 0.0158 (5) 0.0180 (5) 0.0205 (5) 0.0001 (4) 0.0065 (4) −0.0002 (4)
C4A 0.0166 (5) 0.0198 (5) 0.0206 (5) 0.0007 (4) 0.0077 (4) 0.0000 (4)
C5 0.0211 (5) 0.0204 (5) 0.0242 (5) 0.0006 (4) 0.0100 (4) 0.0008 (4)
C6 0.0234 (5) 0.0251 (6) 0.0240 (6) 0.0016 (5) 0.0114 (5) 0.0033 (5)
C7 0.0224 (5) 0.0301 (7) 0.0209 (5) 0.0009 (5) 0.0106 (4) −0.0019 (5)
C8 0.0210 (5) 0.0241 (6) 0.0245 (6) −0.0003 (4) 0.0100 (4) −0.0039 (5)
C8A 0.0170 (5) 0.0196 (5) 0.0227 (5) 0.0003 (4) 0.0084 (4) 0.0002 (4)
C31 0.0192 (5) 0.0194 (5) 0.0222 (5) 0.0001 (4) 0.0084 (4) 0.0008 (4)
C311 0.0184 (5) 0.0203 (5) 0.0187 (5) −0.0014 (4) 0.0077 (4) −0.0004 (4)
C312 0.0223 (5) 0.0187 (5) 0.0231 (6) −0.0004 (4) 0.0089 (4) 0.0017 (4)
C313 0.0236 (6) 0.0207 (6) 0.0218 (5) −0.0001 (4) 0.0100 (4) 0.0041 (4)
C314 0.0195 (5) 0.0230 (6) 0.0193 (5) −0.0011 (4) 0.0085 (4) −0.0001 (4)
C315 0.0219 (5) 0.0189 (5) 0.0226 (5) 0.0008 (4) 0.0088 (4) 0.0002 (4)
C316 0.0217 (5) 0.0189 (5) 0.0201 (5) −0.0005 (4) 0.0077 (4) 0.0033 (4)
C317 0.0366 (7) 0.0231 (6) 0.0255 (6) 0.0020 (5) 0.0166 (5) −0.0013 (5)
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(4a) N-(4-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Geometric parameters (Å, º)

O1—C2 1.3420 (14) C6—H6 0.9500
O1—C8A 1.3767 (15) C7—C8 1.3797 (19)
O4—C4 1.2399 (16) C7—H7 0.9500
O314—C314 1.3747 (14) C8—C8A 1.3969 (16)
O314—C317 1.4266 (18) C8—H8 0.9500
O3—C31 1.2293 (16) C311—C316 1.3941 (19)
N3—C31 1.3528 (17) C311—C312 1.3971 (16)
N3—C311 1.4201 (15) C312—C313 1.3881 (17)
N3—H3 0.901 (17) C312—H312 0.9500
C2—C3 1.3553 (18) C313—C314 1.3967 (19)
C2—H2 0.9500 C313—H313 0.9500
C3—C4 1.4645 (17) C314—C315 1.3916 (17)
C3—C31 1.5055 (16) C315—C316 1.3894 (16)
C4—C4A 1.4742 (16) C315—H315 0.9500
C4A—C8A 1.3921 (18) C316—H316 0.9500
C4A—C5 1.4031 (17) C317—H31A 0.9800
C5—C6 1.3799 (17) C317—H31B 0.9800
C5—H5 0.9500 C317—H31C 0.9800
C6—C7 1.403 (2)
C2—O1—C8A 118.29 (10) O1—C8A—C8 116.09 (11)
C314—O314—C317 116.34 (9) C4A—C8A—C8 122.10 (11)
C31—N3—C311 128.37 (10) O3—C31—N3 125.15 (11)
C31—N3—H3 114.6 (10) O3—C31—C3 121.16 (11)
C311—N3—H3 116.4 (10) N3—C31—C3 113.68 (10)
O1—C2—C3 125.53 (11) C316—C311—C312 119.31 (11)
O1—C2—H2 117.2 C316—C311—N3 116.50 (10)
C3—C2—H2 117.2 C312—C311—N3 124.13 (11)
C2—C3—C4 119.58 (11) C313—C312—C311 119.62 (12)
C2—C3—C31 115.67 (10) C313—C312—H312 120.2
C4—C3—C31 124.72 (10) C311—C312—H312 120.2
O4—C4—C3 124.51 (11) C312—C313—C314 121.00 (11)
O4—C4—C4A 121.10 (10) C312—C313—H313 119.5
C3—C4—C4A 114.37 (10) C314—C313—H313 119.5
C8A—C4A—C5 118.31 (11) O314—C314—C315 124.24 (12)
C8A—C4A—C4 120.31 (10) O314—C314—C313 116.45 (10)
C5—C4A—C4 121.36 (11) C315—C314—C313 119.30 (11)
C6—C5—C4A 120.33 (11) C316—C315—C314 119.81 (12)
C6—C5—H5 119.8 C316—C315—H315 120.1
C4A—C5—H5 119.8 C314—C315—H315 120.1
C5—C6—C7 120.14 (11) C315—C316—C311 120.94 (11)
C5—C6—H6 119.9 C315—C316—H316 119.5
C7—C6—H6 119.9 C311—C316—H316 119.5
C8—C7—C6 120.71 (12) O314—C317—H31A 109.5
C8—C7—H7 119.6 O314—C317—H31B 109.5
C6—C7—H7 119.6 H31A—C317—H31B 109.5
C7—C8—C8A 118.38 (12) O314—C317—H31C 109.5
C7—C8—H8 120.8 H31A—C317—H31C 109.5
C8A—C8—H8 120.8 H31B—C317—H31C 109.5
O1—C8A—C4A 121.81 (11)
C8A—O1—C2—C3 −0.22 (17) C7—C8—C8A—O1 −178.88 (10)
O1—C2—C3—C4 −2.25 (18) C7—C8—C8A—C4A 1.28 (17)
O1—C2—C3—C31 176.01 (10) C311—N3—C31—O3 −1.40 (19)
C2—C3—C4—O4 −179.33 (11) C311—N3—C31—C3 177.21 (10)
C31—C3—C4—O4 2.58 (18) C2—C3—C31—O3 −3.68 (17)
C2—C3—C4—C4A 1.79 (15) C4—C3—C31—O3 174.48 (11)
C31—C3—C4—C4A −176.31 (10) C2—C3—C31—N3 177.65 (10)
O4—C4—C4A—C8A −178.03 (10) C4—C3—C31—N3 −4.19 (16)
C3—C4—C4A—C8A 0.89 (15) C31—N3—C311—C316 −165.10 (11)
O4—C4—C4A—C5 0.21 (17) C31—N3—C311—C312 17.83 (18)
C3—C4—C4A—C5 179.13 (10) C316—C311—C312—C313 −0.79 (17)
C8A—C4A—C5—C6 0.89 (17) N3—C311—C312—C313 176.21 (10)
C4—C4A—C5—C6 −177.38 (10) C311—C312—C313—C314 −0.02 (17)
C4A—C5—C6—C7 0.64 (18) C317—O314—C314—C315 1.46 (16)
C5—C6—C7—C8 −1.26 (18) C317—O314—C314—C313 179.96 (11)
C6—C7—C8—C8A 0.31 (17) C312—C313—C314—O314 −177.58 (10)
C2—O1—C8A—C4A 3.11 (15) C312—C313—C314—C315 1.00 (17)
C2—O1—C8A—C8 −176.72 (9) O314—C314—C315—C316 177.30 (10)
C5—C4A—C8A—O1 178.30 (10) C313—C314—C315—C316 −1.16 (17)
C4—C4A—C8A—O1 −3.41 (16) C314—C315—C316—C311 0.36 (17)
C5—C4A—C8A—C8 −1.88 (16) C312—C311—C316—C315 0.63 (17)
C4—C4A—C8A—C8 176.42 (10) N3—C311—C316—C315 −176.60 (10)
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(4a) N-(4-Methoxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Hydrogen-bond geometry (Å, º)

D—H···A D—H H···A D···A D—H···A
N3—H3···O4 0.901 (17) 1.903 (16) 2.6919 (13) 145.0 (15)
C312—H312···O3 0.95 2.37 2.9441 (17) 119
C2—H2···O4i 0.95 2.47 3.212 (3) 134
C316—H316···O3ii 0.95 2.33 3.201 (2) 152
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Symmetry codes: (i) x, y−1, z; (ii) x, y+1, z.

(4d) N-(4-Methylphenyl)-4-oxo-4H-chromene-3-carboxamide . Crystal data

C17H13NO3 Z = 2
Mr = 279.28 F(000) = 292
Triclinic, P1 Dx = 1.418 Mg m3
a = 6.6106 (5) Å Mo Kα radiation, λ = 0.71075 Å
b = 7.0143 (5) Å Cell parameters from 8940 reflections
c = 15.3749 (11) Å θ = 3.2–27.5°
α = 91.444 (6)° µ = 0.10 mm1
β = 95.238 (6)° T = 100 K
γ = 112.551 (8)° Plate, colourless
V = 654.25 (9) Å3 0.16 × 0.09 × 0.02 mm
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(4d) N-(4-Methylphenyl)-4-oxo-4H-chromene-3-carboxamide . Data collection

Rigaku Saturn724+ (2x2 bin mode) diffractometer 2986 independent reflections
Radiation source: Sealed Tube 2645 reflections with I > 2σ(I)
Mirrors monochromator Rint = 0.035
Detector resolution: 28.5714 pixels mm-1 θmax = 27.6°, θmin = 3.2°
profile data from ω–scans h = −8→8
Absorption correction: multi-scan (CrystalClear-SM Expert; Rigaku, 2012) k = −9→8
Tmin = 0.985, Tmax = 0.998 l = −19→19
9400 measured reflections
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(4d) N-(4-Methylphenyl)-4-oxo-4H-chromene-3-carboxamide . Refinement

Refinement on F2 0 restraints
Least-squares matrix: full Hydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.043 H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.123 w = 1/[σ2(Fo2) + (0.0687P)2 + 0.1454P] where P = (Fo2 + 2Fc2)/3
S = 1.08 (Δ/σ)max = 0.004
2986 reflections Δρmax = 0.33 e Å3
196 parameters Δρmin = −0.26 e Å3
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(4d) N-(4-Methylphenyl)-4-oxo-4H-chromene-3-carboxamide . Special details

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.
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(4d) N-(4-Methylphenyl)-4-oxo-4H-chromene-3-carboxamide . Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
O1 0.82225 (13) 0.28691 (13) 0.53040 (5) 0.0234 (2)
O3 0.75229 (13) 0.36263 (14) 0.27108 (6) 0.0285 (2)
O4 0.21316 (13) 0.23497 (13) 0.42176 (5) 0.0245 (2)
N3 0.38310 (16) 0.28969 (15) 0.26610 (6) 0.0217 (2)
H3 0.282 (3) 0.276 (3) 0.3036 (11) 0.043 (5)*
C2 0.78092 (18) 0.30515 (17) 0.44464 (8) 0.0220 (2)
H2 0.8985 0.3286 0.4097 0.032 (4)*
C3 0.58640 (17) 0.29301 (16) 0.40379 (7) 0.0197 (2)
C4 0.39777 (18) 0.24920 (16) 0.45362 (7) 0.0198 (2)
C4A 0.44234 (18) 0.22256 (16) 0.54690 (7) 0.0197 (2)
C5 0.27553 (19) 0.17259 (18) 0.60293 (8) 0.0230 (2)
H5 0.1298 0.1528 0.5803 0.028*
C6 0.3225 (2) 0.15213 (19) 0.69049 (8) 0.0264 (3)
H6 0.2086 0.1160 0.7279 0.032*
C7 0.5381 (2) 0.18446 (19) 0.72459 (8) 0.0274 (3)
H7 0.5697 0.1734 0.7853 0.033*
C8 0.7048 (2) 0.23214 (18) 0.67093 (8) 0.0256 (3)
H8 0.8509 0.2541 0.6939 0.031*
C8A 0.65314 (18) 0.24727 (17) 0.58227 (8) 0.0210 (2)
C311 0.32431 (18) 0.28817 (17) 0.17506 (7) 0.0222 (2)
C312 0.4436 (2) 0.24849 (19) 0.11163 (8) 0.0271 (3)
H312 0.5759 0.2289 0.1284 0.032*
C313 0.3675 (2) 0.23785 (19) 0.02375 (8) 0.0296 (3)
H313 0.4502 0.2118 −0.0191 0.036*
C314 0.1735 (2) 0.26422 (18) −0.00357 (8) 0.0273 (3)
C315 0.0570 (2) 0.30296 (19) 0.06084 (8) 0.0263 (3)
H315 −0.0762 0.3208 0.0440 0.032*
C316 0.13057 (19) 0.31625 (18) 0.14920 (8) 0.0241 (3)
H316 0.0489 0.3445 0.1919 0.029*
C317 0.0915 (2) 0.2486 (2) −0.09925 (8) 0.0335 (3)
H31C −0.0432 0.2766 −0.1057 0.050*
H31D 0.0598 0.1090 −0.1244 0.050*
H31E 0.2045 0.3500 −0.1299 0.050*
C31 0.58315 (18) 0.31961 (17) 0.30716 (8) 0.0216 (2)
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(4d) N-(4-Methylphenyl)-4-oxo-4H-chromene-3-carboxamide . Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
O1 0.0174 (4) 0.0264 (4) 0.0264 (4) 0.0091 (3) 0.0004 (3) 0.0004 (3)
O3 0.0202 (4) 0.0359 (5) 0.0297 (5) 0.0098 (4) 0.0080 (3) 0.0047 (4)
O4 0.0174 (4) 0.0332 (5) 0.0252 (4) 0.0120 (3) 0.0028 (3) 0.0048 (3)
N3 0.0194 (5) 0.0256 (5) 0.0213 (5) 0.0096 (4) 0.0042 (4) 0.0033 (4)
C2 0.0188 (5) 0.0203 (5) 0.0261 (6) 0.0068 (4) 0.0027 (4) 0.0001 (4)
C3 0.0182 (5) 0.0166 (5) 0.0245 (6) 0.0069 (4) 0.0033 (4) 0.0010 (4)
C4 0.0178 (5) 0.0172 (5) 0.0249 (5) 0.0073 (4) 0.0021 (4) 0.0013 (4)
C4A 0.0201 (5) 0.0168 (5) 0.0226 (5) 0.0080 (4) 0.0011 (4) 0.0001 (4)
C5 0.0222 (5) 0.0221 (5) 0.0264 (6) 0.0104 (4) 0.0031 (4) 0.0011 (4)
C6 0.0296 (6) 0.0267 (6) 0.0254 (6) 0.0129 (5) 0.0060 (5) 0.0014 (4)
C7 0.0343 (6) 0.0268 (6) 0.0221 (5) 0.0140 (5) −0.0007 (5) −0.0006 (4)
C8 0.0251 (6) 0.0250 (6) 0.0267 (6) 0.0114 (5) −0.0042 (4) −0.0026 (4)
C8A 0.0202 (5) 0.0175 (5) 0.0257 (6) 0.0078 (4) 0.0020 (4) −0.0004 (4)
C311 0.0224 (5) 0.0203 (5) 0.0218 (5) 0.0058 (4) 0.0036 (4) 0.0020 (4)
C312 0.0245 (6) 0.0278 (6) 0.0285 (6) 0.0091 (5) 0.0059 (4) 0.0011 (5)
C313 0.0313 (6) 0.0297 (6) 0.0253 (6) 0.0077 (5) 0.0102 (5) −0.0003 (5)
C314 0.0318 (6) 0.0217 (5) 0.0228 (6) 0.0040 (5) 0.0037 (5) 0.0019 (4)
C315 0.0269 (6) 0.0256 (6) 0.0253 (6) 0.0093 (5) 0.0012 (4) 0.0025 (4)
C316 0.0245 (6) 0.0252 (6) 0.0233 (6) 0.0099 (5) 0.0044 (4) 0.0020 (4)
C317 0.0425 (7) 0.0301 (6) 0.0224 (6) 0.0083 (6) 0.0029 (5) 0.0009 (5)
C31 0.0201 (5) 0.0198 (5) 0.0257 (6) 0.0078 (4) 0.0047 (4) 0.0026 (4)
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(4d) N-(4-Methylphenyl)-4-oxo-4H-chromene-3-carboxamide . Geometric parameters (Å, º)

O1—C2 1.3414 (14) C7—C8 1.3799 (18)
O1—C8A 1.3779 (14) C7—H7 0.9500
O3—C31 1.2296 (14) C8—C8A 1.3914 (16)
O4—C4 1.2386 (13) C8—H8 0.9500
N3—C31 1.3488 (14) C311—C316 1.3935 (16)
N3—C311 1.4168 (14) C311—C312 1.3948 (16)
N3—H3 0.900 (18) C312—C313 1.3878 (17)
C2—C3 1.3494 (15) C312—H312 0.9500
C2—H2 0.9500 C313—C314 1.3939 (18)
C3—C4 1.4590 (15) C313—H313 0.9500
C3—C31 1.5013 (16) C314—C315 1.3907 (17)
C4—C4A 1.4688 (15) C314—C317 1.5068 (16)
C4A—C8A 1.3926 (15) C315—C316 1.3889 (16)
C4A—C5 1.4047 (16) C315—H315 0.9500
C5—C6 1.3773 (16) C316—H316 0.9500
C5—H5 0.9500 C317—H31C 0.9800
C6—C7 1.4023 (17) C317—H31D 0.9800
C6—H6 0.9500 C317—H31E 0.9800
C2—O1—C8A 118.52 (9) O1—C8A—C4A 121.24 (10)
C31—N3—C311 127.52 (10) C8—C8A—C4A 122.38 (11)
C31—N3—H3 112.7 (11) C316—C311—C312 119.49 (11)
C311—N3—H3 119.7 (11) C316—C311—N3 117.29 (10)
O1—C2—C3 125.51 (10) C312—C311—N3 123.11 (10)
O1—C2—H2 117.2 C313—C312—C311 119.44 (11)
C3—C2—H2 117.2 C313—C312—H312 120.3
C2—C3—C4 119.57 (10) C311—C312—H312 120.3
C2—C3—C31 115.13 (10) C312—C313—C314 122.04 (11)
C4—C3—C31 125.27 (10) C312—C313—H313 119.0
O4—C4—C3 124.11 (10) C314—C313—H313 119.0
O4—C4—C4A 121.31 (10) C315—C314—C313 117.49 (11)
C3—C4—C4A 114.58 (9) C315—C314—C317 121.24 (12)
C8A—C4A—C5 118.12 (10) C313—C314—C317 121.26 (12)
C8A—C4A—C4 120.48 (10) C316—C315—C314 121.62 (11)
C5—C4A—C4 121.39 (10) C316—C315—H315 119.2
C6—C5—C4A 120.25 (11) C314—C315—H315 119.2
C6—C5—H5 119.9 C315—C316—C311 119.91 (11)
C4A—C5—H5 119.9 C315—C316—H316 120.0
C5—C6—C7 120.20 (11) C311—C316—H316 120.0
C5—C6—H6 119.9 C314—C317—H31C 109.5
C7—C6—H6 119.9 C314—C317—H31D 109.5
C8—C7—C6 120.76 (11) H31C—C317—H31D 109.5
C8—C7—H7 119.6 C314—C317—H31E 109.5
C6—C7—H7 119.6 H31C—C317—H31E 109.5
C7—C8—C8A 118.23 (11) H31D—C317—H31E 109.5
C7—C8—H8 120.9 O3—C31—N3 124.93 (11)
C8A—C8—H8 120.9 O3—C31—C3 120.73 (10)
O1—C8A—C8 116.38 (10) N3—C31—C3 114.33 (9)
C8A—O1—C2—C3 1.72 (17) C4—C4A—C8A—O1 −3.26 (16)
O1—C2—C3—C4 −2.37 (17) C5—C4A—C8A—C8 −2.55 (17)
O1—C2—C3—C31 179.75 (9) C4—C4A—C8A—C8 177.21 (10)
C2—C3—C4—O4 −179.91 (10) C31—N3—C311—C316 −161.26 (11)
C31—C3—C4—O4 −2.27 (18) C31—N3—C311—C312 22.52 (18)
C2—C3—C4—C4A 0.18 (15) C316—C311—C312—C313 0.07 (18)
C31—C3—C4—C4A 177.83 (9) N3—C311—C312—C313 176.21 (10)
O4—C4—C4A—C8A −177.42 (10) C311—C312—C313—C314 −0.46 (19)
C3—C4—C4A—C8A 2.48 (15) C312—C313—C314—C315 0.26 (19)
O4—C4—C4A—C5 2.32 (17) C312—C313—C314—C317 −178.96 (11)
C3—C4—C4A—C5 −177.77 (10) C313—C314—C315—C316 0.35 (18)
C8A—C4A—C5—C6 0.93 (17) C317—C314—C315—C316 179.57 (11)
C4—C4A—C5—C6 −178.83 (10) C314—C315—C316—C311 −0.73 (18)
C4A—C5—C6—C7 1.07 (18) C312—C311—C316—C315 0.51 (18)
C5—C6—C7—C8 −1.57 (18) N3—C311—C316—C315 −175.85 (10)
C6—C7—C8—C8A 0.02 (18) C311—N3—C31—O3 4.35 (19)
C2—O1—C8A—C8 −179.25 (9) C311—N3—C31—C3 −174.78 (10)
C2—O1—C8A—C4A 1.19 (15) C2—C3—C31—O3 −4.51 (16)
C7—C8—C8A—O1 −177.48 (10) C4—C3—C31—O3 177.76 (10)
C7—C8—C8A—C4A 2.07 (17) C2—C3—C31—N3 174.67 (10)
C5—C4A—C8A—O1 176.98 (10) C4—C3—C31—N3 −3.07 (16)
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(4d) N-(4-Methylphenyl)-4-oxo-4H-chromene-3-carboxamide . Hydrogen-bond geometry (Å, º)

D—H···A D—H H···A D···A D—H···A
N3—H3···O4 0.900 (18) 1.916 (18) 2.7098 (13) 146.1 (15)
C312—H312···O3 0.95 2.37 2.9240 (16) 116
C2—H2···O4i 0.95 2.40 3.1280 (14) 133
C316—H316···O3ii 0.95 2.44 3.3644 (14) 164
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Symmetry codes: (i) x+1, y, z; (ii) x−1, y, z.

(4e) N-(4-Hydroxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Crystal data

C16H11NO4 Z = 4
Mr = 281.26 F(000) = 584
Triclinic, P1 Dx = 1.494 Mg m3
a = 7.0756 (5) Å Mo Kα radiation, λ = 0.71075 Å
b = 12.5125 (9) Å Cell parameters from 14545 reflections
c = 14.2944 (10) Å θ = 2.9–27.5°
α = 86.267 (8)° µ = 0.11 mm1
β = 83.839 (8)° T = 100 K
γ = 84.588 (8)° Block, colourless
V = 1250.68 (16) Å3 0.14 × 0.04 × 0.04 mm
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(4e) N-(4-Hydroxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Data collection

Rigaku Saturn724+ (2x2 bin mode) diffractometer 5627 measured reflections
Radiation source: Sealed Tube 5627 independent reflections
Mirrors monochromator 4343 reflections with I > 2σ(I)
Detector resolution: 28.5714 pixels mm-1 θmax = 27.6°, θmin = 2.9°
profile data from ω–scans h = −9→9
Absorption correction: multi-scan (CrystalClear-SM Expert; Rigaku, 2012) k = −16→16
Tmin = 0.985, Tmax = 0.996 l = −4→18
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(4e) N-(4-Hydroxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Refinement

Refinement on F2 0 restraints
Least-squares matrix: full Hydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.085 H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.252 w = 1/[σ2(Fo2) + (0.1127P)2 + 0.9725P] where P = (Fo2 + 2Fc2)/3
S = 1.18 (Δ/σ)max < 0.001
5627 reflections Δρmax = 0.41 e Å3
392 parameters Δρmin = −0.38 e Å3
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(4e) N-(4-Hydroxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Special details

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.
Refinement. Refined as a 2-component twin. 2-axis (0 0 1) [-1 0 5], Angle () [] = 3.22 Deg, Freq = 48 ************* (-1.000 0.000 0.000) (h1) (h2) Nr Overlap = 1085 (0.000 - 1.000 0.000) * (k1) = (k2) BASF = 0.40 (-0.412 - 0.127 1.000) (l1) (l2) DEL-R =-0.068
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(4e) N-(4-Hydroxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
O11 0.8738 (4) −0.0689 (2) −0.21765 (17) 0.0295 (6)
O13 0.7750 (4) −0.0154 (2) 0.06141 (17) 0.0339 (6)
O14 0.5168 (4) 0.1945 (2) −0.14104 (17) 0.0311 (6)
O114 0.4248 (4) 0.2817 (2) 0.40213 (18) 0.0379 (7)
H114 0.353 (8) 0.344 (5) 0.412 (4) 0.057*
N13 0.5991 (4) 0.1441 (2) 0.0370 (2) 0.0270 (6)
H13 0.546 (6) 0.188 (3) −0.011 (3) 0.032*
C12 0.8371 (5) −0.0430 (3) −0.1277 (2) 0.0280 (7)
H12 0.8983 −0.0883 −0.0820 0.034*
C13 0.7215 (5) 0.0413 (3) −0.0963 (2) 0.0254 (7)
C14 0.6239 (5) 0.1147 (3) −0.1638 (2) 0.0258 (7)
C14A 0.6635 (5) 0.0847 (3) −0.2619 (2) 0.0259 (7)
C15 0.5814 (5) 0.1460 (3) −0.3350 (3) 0.0311 (8)
H15 0.4998 0.2090 −0.3212 0.037*
C16 0.6177 (6) 0.1161 (3) −0.4271 (3) 0.0342 (8)
H16 0.5602 0.1578 −0.4761 0.041*
C17 0.7399 (6) 0.0235 (3) −0.4478 (3) 0.0360 (8)
H17 0.7644 0.0031 −0.5111 0.043*
C18 0.8250 (5) −0.0382 (3) −0.3772 (3) 0.0330 (8)
H18 0.9083 −0.1005 −0.3910 0.040*
C18A 0.7842 (5) −0.0058 (3) −0.2852 (2) 0.0274 (7)
C111 0.5570 (5) 0.1758 (3) 0.1308 (2) 0.0252 (7)
C112 0.6421 (5) 0.1236 (3) 0.2077 (2) 0.0282 (7)
H112 0.7315 0.0626 0.1985 0.034*
C113 0.5955 (5) 0.1611 (3) 0.2966 (2) 0.0294 (7)
H113 0.6544 0.1259 0.3482 0.035*
C114 0.4642 (5) 0.2494 (3) 0.3121 (2) 0.0288 (7)
C115 0.3799 (5) 0.3017 (3) 0.2363 (3) 0.0295 (8)
H115 0.2910 0.3628 0.2458 0.035*
C116 0.4259 (5) 0.2644 (3) 0.1463 (2) 0.0288 (7)
H116 0.3669 0.2999 0.0948 0.035*
C131 0.7013 (5) 0.0543 (3) 0.0076 (2) 0.0256 (7)
O21 0.3577 (4) 0.4196 (2) 0.68202 (17) 0.0291 (6)
O23 0.2438 (4) 0.4764 (2) 0.40951 (18) 0.0340 (6)
O24 0.0699 (4) 0.7076 (2) 0.61185 (18) 0.0329 (6)
O214 −0.0597 (4) 0.7840 (2) 0.07027 (17) 0.0335 (6)
H214 −0.127 (7) 0.846 (4) 0.061 (4) 0.050*
N23 0.1222 (4) 0.6485 (2) 0.4321 (2) 0.0271 (6)
H23 0.083 (6) 0.697 (4) 0.476 (3) 0.033*
C22 0.3224 (5) 0.4471 (3) 0.5933 (2) 0.0279 (7)
H22 0.3692 0.3977 0.5467 0.033*
C23 0.2255 (5) 0.5396 (3) 0.5643 (2) 0.0251 (7)
C24 0.1521 (5) 0.6191 (3) 0.6325 (2) 0.0269 (7)
C24A 0.1811 (5) 0.5846 (3) 0.7308 (2) 0.0265 (7)
C25 0.1072 (5) 0.6482 (3) 0.8058 (2) 0.0292 (7)
H25 0.0377 0.7154 0.7934 0.035*
C26 0.1346 (6) 0.6140 (3) 0.8973 (3) 0.0339 (8)
H26 0.0833 0.6574 0.9476 0.041*
C27 0.2386 (6) 0.5147 (3) 0.9163 (3) 0.0358 (9)
H27 0.2567 0.4913 0.9796 0.043*
C28 0.3146 (6) 0.4509 (3) 0.8432 (3) 0.0310 (8)
H28 0.3866 0.3844 0.8552 0.037*
C28A 0.2824 (5) 0.4874 (3) 0.7521 (2) 0.0269 (7)
C211 0.0775 (5) 0.6804 (3) 0.3389 (2) 0.0267 (7)
C212 0.1618 (5) 0.6283 (3) 0.2592 (2) 0.0282 (7)
H212 0.2525 0.5680 0.2658 0.034*
C213 0.1131 (5) 0.6645 (3) 0.1709 (3) 0.0310 (8)
H213 0.1699 0.6284 0.1170 0.037*
C214 −0.0177 (5) 0.7531 (3) 0.1599 (2) 0.0273 (7)
C215 −0.0999 (5) 0.8059 (3) 0.2387 (2) 0.0281 (7)
H215 −0.1887 0.8670 0.2317 0.034*
C216 −0.0524 (5) 0.7694 (3) 0.3276 (2) 0.0279 (7)
H216 −0.1093 0.8057 0.3813 0.033*
C231 0.1984 (5) 0.5522 (3) 0.4620 (2) 0.0257 (7)
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(4e) N-(4-Hydroxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
O11 0.0371 (14) 0.0262 (13) 0.0243 (12) 0.0048 (10) −0.0052 (10) −0.0025 (10)
O13 0.0470 (16) 0.0281 (14) 0.0255 (12) 0.0065 (11) −0.0081 (11) −0.0009 (10)
O14 0.0372 (14) 0.0265 (13) 0.0289 (12) 0.0033 (11) −0.0047 (10) −0.0017 (10)
O114 0.0536 (17) 0.0314 (15) 0.0277 (13) 0.0109 (12) −0.0098 (12) −0.0072 (11)
N13 0.0329 (15) 0.0240 (15) 0.0234 (13) 0.0013 (12) −0.0042 (11) 0.0009 (11)
C12 0.0331 (18) 0.0278 (18) 0.0233 (16) −0.0015 (14) −0.0053 (13) −0.0008 (13)
C13 0.0286 (16) 0.0230 (16) 0.0253 (16) −0.0045 (13) −0.0052 (13) 0.0004 (13)
C14 0.0253 (16) 0.0244 (17) 0.0273 (16) −0.0035 (13) −0.0028 (13) 0.0024 (13)
C14A 0.0292 (17) 0.0231 (17) 0.0254 (16) −0.0047 (13) −0.0022 (13) −0.0001 (13)
C15 0.0351 (19) 0.0292 (19) 0.0286 (17) −0.0024 (15) −0.0032 (14) 0.0005 (14)
C16 0.041 (2) 0.035 (2) 0.0261 (17) −0.0012 (16) −0.0059 (15) 0.0024 (15)
C17 0.045 (2) 0.039 (2) 0.0234 (16) −0.0030 (17) −0.0032 (15) −0.0015 (15)
C18 0.037 (2) 0.033 (2) 0.0286 (17) −0.0003 (15) −0.0015 (15) −0.0049 (15)
C18A 0.0289 (17) 0.0305 (18) 0.0231 (15) −0.0050 (14) −0.0048 (13) 0.0033 (13)
C111 0.0290 (17) 0.0232 (16) 0.0240 (15) −0.0033 (13) −0.0029 (13) −0.0034 (13)
C112 0.0320 (18) 0.0245 (17) 0.0281 (16) 0.0012 (14) −0.0050 (13) −0.0032 (13)
C113 0.0398 (19) 0.0228 (17) 0.0259 (16) 0.0016 (14) −0.0096 (14) 0.0006 (13)
C114 0.0355 (18) 0.0255 (17) 0.0258 (16) −0.0010 (14) −0.0038 (14) −0.0053 (13)
C115 0.0342 (18) 0.0230 (17) 0.0313 (18) 0.0040 (14) −0.0077 (14) −0.0039 (14)
C116 0.0353 (18) 0.0248 (17) 0.0266 (16) 0.0008 (14) −0.0072 (14) −0.0022 (13)
C131 0.0300 (17) 0.0216 (16) 0.0253 (16) −0.0020 (13) −0.0045 (13) −0.0003 (13)
O21 0.0383 (14) 0.0233 (12) 0.0252 (12) 0.0029 (10) −0.0067 (10) −0.0012 (10)
O23 0.0462 (15) 0.0276 (13) 0.0275 (12) 0.0057 (11) −0.0067 (11) −0.0044 (10)
O24 0.0414 (15) 0.0269 (13) 0.0299 (13) 0.0050 (11) −0.0084 (11) −0.0028 (10)
O214 0.0446 (15) 0.0296 (14) 0.0250 (12) 0.0064 (11) −0.0081 (11) 0.0007 (10)
N23 0.0357 (16) 0.0221 (15) 0.0238 (14) 0.0006 (12) −0.0068 (12) −0.0009 (11)
C22 0.0329 (18) 0.0267 (18) 0.0249 (16) −0.0022 (14) −0.0055 (13) −0.0031 (14)
C23 0.0281 (16) 0.0226 (16) 0.0248 (15) −0.0009 (13) −0.0047 (13) −0.0030 (13)
C24 0.0298 (17) 0.0245 (17) 0.0270 (16) −0.0016 (13) −0.0065 (13) −0.0005 (13)
C24A 0.0296 (17) 0.0243 (17) 0.0261 (16) −0.0035 (13) −0.0035 (13) −0.0015 (13)
C25 0.0345 (18) 0.0258 (18) 0.0276 (17) −0.0008 (14) −0.0055 (14) −0.0027 (14)
C26 0.043 (2) 0.0299 (19) 0.0290 (18) −0.0007 (16) −0.0042 (15) −0.0051 (15)
C27 0.050 (2) 0.034 (2) 0.0243 (17) −0.0014 (17) −0.0085 (16) 0.0007 (15)
C28 0.041 (2) 0.0238 (17) 0.0287 (17) −0.0023 (15) −0.0056 (15) 0.0010 (14)
C28A 0.0318 (17) 0.0247 (17) 0.0247 (16) −0.0036 (14) −0.0038 (13) −0.0027 (13)
C211 0.0302 (17) 0.0250 (17) 0.0253 (16) −0.0033 (13) −0.0052 (13) 0.0005 (13)
C212 0.0314 (17) 0.0239 (17) 0.0285 (17) 0.0038 (13) −0.0046 (14) −0.0017 (14)
C213 0.0369 (19) 0.0283 (18) 0.0270 (17) 0.0025 (15) −0.0021 (14) −0.0042 (14)
C214 0.0312 (17) 0.0262 (17) 0.0246 (16) −0.0014 (14) −0.0066 (13) 0.0018 (13)
C215 0.0305 (17) 0.0229 (17) 0.0306 (17) 0.0006 (13) −0.0054 (14) −0.0005 (13)
C216 0.0328 (18) 0.0247 (17) 0.0263 (16) −0.0014 (14) −0.0041 (13) −0.0026 (13)
C231 0.0292 (17) 0.0243 (17) 0.0236 (15) −0.0003 (13) −0.0046 (12) −0.0022 (13)
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(4e) N-(4-Hydroxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Geometric parameters (Å, º)

O11—C12 1.339 (4) O21—C22 1.336 (4)
O11—C18A 1.377 (4) O21—C28A 1.384 (4)
O13—C131 1.241 (4) O23—C231 1.244 (4)
O14—C14 1.235 (4) O24—C24 1.234 (4)
O114—C114 1.366 (4) O214—C214 1.369 (4)
O114—H114 0.91 (6) O214—H214 0.88 (5)
N13—C131 1.343 (4) N23—C231 1.337 (4)
N13—C111 1.416 (4) N23—C211 1.424 (4)
N13—H13 0.94 (4) N23—H23 0.90 (4)
C12—C13 1.343 (5) C22—C23 1.353 (5)
C12—H12 0.9500 C22—H22 0.9500
C13—C14 1.469 (5) C23—C24 1.459 (5)
C13—C131 1.495 (5) C23—C231 1.492 (5)
C14—C14A 1.466 (5) C24—C24A 1.473 (5)
C14A—C18A 1.389 (5) C24A—C28A 1.386 (5)
C14A—C15 1.401 (5) C24A—C25 1.403 (5)
C15—C16 1.383 (5) C25—C26 1.377 (5)
C15—H15 0.9500 C25—H25 0.9500
C16—C17 1.406 (6) C26—C27 1.409 (5)
C16—H16 0.9500 C26—H26 0.9500
C17—C18 1.385 (5) C27—C28 1.388 (5)
C17—H17 0.9500 C27—H27 0.9500
C18—C18A 1.394 (5) C28—C28A 1.387 (5)
C18—H18 0.9500 C28—H28 0.9500
C111—C116 1.390 (5) C211—C216 1.388 (5)
C111—C112 1.405 (5) C211—C212 1.399 (5)
C112—C113 1.379 (5) C212—C213 1.381 (5)
C112—H112 0.9500 C212—H212 0.9500
C113—C114 1.388 (5) C213—C214 1.387 (5)
C113—H113 0.9500 C213—H213 0.9500
C114—C115 1.389 (5) C214—C215 1.388 (5)
C115—C116 1.392 (5) C215—C216 1.388 (5)
C115—H115 0.9500 C215—H215 0.9500
C116—H116 0.9500 C216—H216 0.9500
C12—O11—C18A 118.3 (3) C22—O21—C28A 118.5 (3)
C114—O114—H114 119 (3) C214—O214—H214 118 (3)
C131—N13—C111 127.5 (3) C231—N23—C211 126.8 (3)
C131—N13—H13 114 (3) C231—N23—H23 118 (3)
C111—N13—H13 118 (3) C211—N23—H23 115 (3)
O11—C12—C13 125.8 (3) O21—C22—C23 125.3 (3)
O11—C12—H12 117.1 O21—C22—H22 117.3
C13—C12—H12 117.1 C23—C22—H22 117.3
C12—C13—C14 119.6 (3) C22—C23—C24 119.8 (3)
C12—C13—C131 116.6 (3) C22—C23—C231 116.2 (3)
C14—C13—C131 123.8 (3) C24—C23—C231 124.0 (3)
O14—C14—C14A 122.2 (3) O24—C24—C23 124.3 (3)
O14—C14—C13 123.7 (3) O24—C24—C24A 121.5 (3)
C14A—C14—C13 114.0 (3) C23—C24—C24A 114.2 (3)
C18A—C14A—C15 117.8 (3) C28A—C24A—C25 117.8 (3)
C18A—C14A—C14 120.9 (3) C28A—C24A—C24 120.7 (3)
C15—C14A—C14 121.3 (3) C25—C24A—C24 121.6 (3)
C16—C15—C14A 120.8 (4) C26—C25—C24A 120.6 (3)
C16—C15—H15 119.6 C26—C25—H25 119.7
C14A—C15—H15 119.6 C24A—C25—H25 119.7
C15—C16—C17 119.7 (3) C25—C26—C27 120.1 (3)
C15—C16—H16 120.2 C25—C26—H26 120.0
C17—C16—H16 120.2 C27—C26—H26 120.0
C18—C17—C16 121.0 (3) C28—C27—C26 120.3 (3)
C18—C17—H17 119.5 C28—C27—H27 119.8
C16—C17—H17 119.5 C26—C27—H27 119.8
C17—C18—C18A 117.7 (4) C28A—C28—C27 118.0 (3)
C17—C18—H18 121.1 C28A—C28—H28 121.0
C18A—C18—H18 121.1 C27—C28—H28 121.0
O11—C18A—C14A 121.3 (3) O21—C28A—C24A 121.2 (3)
O11—C18A—C18 115.6 (3) O21—C28A—C28 115.6 (3)
C14A—C18A—C18 123.1 (3) C24A—C28A—C28 123.2 (3)
C116—C111—C112 118.9 (3) C216—C211—C212 119.1 (3)
C116—C111—N13 117.5 (3) C216—C211—N23 117.7 (3)
C112—C111—N13 123.5 (3) C212—C211—N23 123.2 (3)
C113—C112—C111 119.7 (3) C213—C212—C211 120.0 (3)
C113—C112—H112 120.1 C213—C212—H212 120.0
C111—C112—H112 120.1 C211—C212—H212 120.0
C112—C113—C114 121.3 (3) C212—C213—C214 120.8 (3)
C112—C113—H113 119.3 C212—C213—H213 119.6
C114—C113—H113 119.3 C214—C213—H213 119.6
O114—C114—C113 117.9 (3) O214—C214—C213 117.5 (3)
O114—C114—C115 122.8 (3) O214—C214—C215 123.1 (3)
C113—C114—C115 119.3 (3) C213—C214—C215 119.4 (3)
C114—C115—C116 119.8 (3) C216—C215—C214 120.0 (3)
C114—C115—H115 120.1 C216—C215—H215 120.0
C116—C115—H115 120.1 C214—C215—H215 120.0
C111—C116—C115 120.9 (3) C215—C216—C211 120.7 (3)
C111—C116—H116 119.5 C215—C216—H216 119.7
C115—C116—H116 119.5 C211—C216—H216 119.7
O13—C131—N13 123.6 (3) O23—C231—N23 123.3 (3)
O13—C131—C13 120.5 (3) O23—C231—C23 121.0 (3)
N13—C131—C13 115.9 (3) N23—C231—C23 115.6 (3)
C18A—O11—C12—C13 −1.2 (5) C28A—O21—C22—C23 3.5 (5)
O11—C12—C13—C14 −0.4 (6) O21—C22—C23—C24 0.6 (6)
O11—C12—C13—C131 179.8 (3) O21—C22—C23—C231 −178.4 (3)
C12—C13—C14—O14 −179.3 (3) C22—C23—C24—O24 176.5 (4)
C131—C13—C14—O14 0.5 (5) C231—C23—C24—O24 −4.6 (6)
C12—C13—C14—C14A 1.1 (5) C22—C23—C24—C24A −4.4 (5)
C131—C13—C14—C14A −179.2 (3) C231—C23—C24—C24A 174.6 (3)
O14—C14—C14A—C18A −179.8 (3) O24—C24—C24A—C28A −176.6 (3)
C13—C14—C14A—C18A −0.2 (5) C23—C24—C24A—C28A 4.3 (5)
O14—C14—C14A—C15 0.2 (5) O24—C24—C24A—C25 3.7 (5)
C13—C14—C14A—C15 179.9 (3) C23—C24—C24A—C25 −175.4 (3)
C18A—C14A—C15—C16 1.0 (5) C28A—C24A—C25—C26 −0.3 (5)
C14—C14A—C15—C16 −179.1 (3) C24—C24A—C25—C26 179.4 (3)
C14A—C15—C16—C17 −0.6 (6) C24A—C25—C26—C27 0.4 (6)
C15—C16—C17—C18 −0.1 (6) C25—C26—C27—C28 0.2 (6)
C16—C17—C18—C18A 0.4 (6) C26—C27—C28—C28A −0.9 (6)
C12—O11—C18A—C14A 2.1 (5) C22—O21—C28A—C24A −3.5 (5)
C12—O11—C18A—C18 −178.7 (3) C22—O21—C28A—C28 176.2 (3)
C15—C14A—C18A—O11 178.6 (3) C25—C24A—C28A—O21 179.2 (3)
C14—C14A—C18A—O11 −1.4 (5) C24—C24A—C28A—O21 −0.5 (5)
C15—C14A—C18A—C18 −0.6 (5) C25—C24A—C28A—C28 −0.5 (5)
C14—C14A—C18A—C18 179.4 (3) C24—C24A—C28A—C28 179.8 (3)
C17—C18—C18A—O11 −179.3 (3) C27—C28—C28A—O21 −178.6 (3)
C17—C18—C18A—C14A −0.1 (6) C27—C28—C28A—C24A 1.1 (6)
C131—N13—C111—C116 −170.9 (3) C231—N23—C211—C216 160.2 (3)
C131—N13—C111—C112 9.9 (6) C231—N23—C211—C212 −21.6 (6)
C116—C111—C112—C113 −0.4 (5) C216—C211—C212—C213 −1.0 (5)
N13—C111—C112—C113 178.8 (3) N23—C211—C212—C213 −179.2 (3)
C111—C112—C113—C114 0.6 (6) C211—C212—C213—C214 0.6 (6)
C112—C113—C114—O114 179.8 (3) C212—C213—C214—O214 −179.6 (3)
C112—C113—C114—C115 −0.8 (6) C212—C213—C214—C215 0.2 (6)
O114—C114—C115—C116 −179.8 (4) O214—C214—C215—C216 179.2 (3)
C113—C114—C115—C116 0.8 (6) C213—C214—C215—C216 −0.6 (5)
C112—C111—C116—C115 0.5 (5) C214—C215—C216—C211 0.2 (5)
N13—C111—C116—C115 −178.8 (3) C212—C211—C216—C215 0.6 (5)
C114—C115—C116—C111 −0.7 (6) N23—C211—C216—C215 178.9 (3)
C111—N13—C131—O13 0.1 (6) C211—N23—C231—O23 1.2 (6)
C111—N13—C131—C13 179.5 (3) C211—N23—C231—C23 −178.4 (3)
C12—C13—C131—O13 −6.3 (5) C22—C23—C231—O23 7.8 (5)
C14—C13—C131—O13 173.9 (3) C24—C23—C231—O23 −171.1 (3)
C12—C13—C131—N13 174.3 (3) C22—C23—C231—N23 −172.6 (3)
C14—C13—C131—N13 −5.5 (5) C24—C23—C231—N23 8.5 (5)
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(4e) N-(4-Hydroxyphenyl)-4-oxo-4H-chromene-3-carboxamide . Hydrogen-bond geometry (Å, º)

D—H···A D—H H···A D···A D—H···A
N13—H13···O14 0.94 (4) 1.88 (4) 2.693 (4) 143 (4)
N23—H23···O24 0.90 (4) 1.95 (4) 2.698 (4) 139 (4)
C112—H112···O13 0.95 2.23 2.833 (4) 121
C212—H212···O23 0.95 2.28 2.845 (4) 117
O114—H114···O23 0.91 (6) 1.76 (6) 2.647 (4) 167 (5)
O214—H214···O13i 0.88 (5) 1.81 (5) 2.668 (4) 165 (5)
C16—H16···O114ii 0.95 2.46 3.411 (5) 174
C18—H18···O24iii 0.95 2.56 3.481 (5) 163
C22—H22···O114 0.95 2.58 3.508 (4) 166
C26—H26···O214iv 0.95 2.51 3.454 (5) 175
C28—H28···O14iv 0.95 2.46 3.391 (5) 165
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Symmetry codes: (i) x−1, y+1, z; (ii) x, y, z−1; (iii) x+1, y−1, z−1; (iv) x, y, z+1.

References

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Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Supplementary Materials

Crystal structure: contains datablock(s) 2b, 3a, 3b, 4a, 4d, 4e, global. DOI: 10.1107/S2056989015007859/lh5762sup1.cif

e-71-00547-sup1.cif (4.8MB, cif)

Structure factors: contains datablock(s) 2b. DOI: 10.1107/S2056989015007859/lh57622bsup2.hkl

e-71-00547-2bsup2.hkl (161.9KB, hkl)

Structure factors: contains datablock(s) 3a. DOI: 10.1107/S2056989015007859/lh57623asup3.hkl

e-71-00547-3asup3.hkl (146.5KB, hkl)

Structure factors: contains datablock(s) 3b. DOI: 10.1107/S2056989015007859/lh57623bsup4.hkl

e-71-00547-3bsup4.hkl (325.5KB, hkl)

Structure factors: contains datablock(s) 4a. DOI: 10.1107/S2056989015007859/lh57624asup5.hkl

e-71-00547-4asup5.hkl (164.1KB, hkl)

Structure factors: contains datablock(s) 4d. DOI: 10.1107/S2056989015007859/lh57624dsup6.hkl

e-71-00547-4dsup6.hkl (164KB, hkl)

Structure factors: contains datablock(s) 4e. DOI: 10.1107/S2056989015007859/lh57624esup7.hkl

e-71-00547-4esup7.hkl (308.4KB, hkl)
Click here for additional data file. (5.4KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57622bsup8.cml

Click here for additional data file. (5.5KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57623asup9.cml

Click here for additional data file. (5KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57623bsup10.cml

Click here for additional data file. (5.5KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57624asup11.cml

Click here for additional data file. (5.3KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57624dsup12.cml

Click here for additional data file. (5.1KB, cml)

Supporting information file. DOI: 10.1107/S2056989015007859/lh57624esup13.cml

CCDC references: 1025354, 1025353, 1025352, 1025255, 1025257, 1025254

Additional supporting information: crystallographic information; 3D view; checkCIF report

Articles from Acta Crystallographica Section E: Crystallographic Communications are provided here courtesy of International Union of Crystallography

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