. Author manuscript; available in PMC: 2010 Mar 11.

Published in final edited form as: J Am Chem Soc. 2009 Mar 11;131(9):3126–3127. doi: 10.1021/ja809097r

Table 1.

M05-2X/6-311+G(2df,2p) interaction energies for Na⁺ with C₆H₅X [E_int(C₆H₅X)] and the additive model [E_int(HX + C₆H₆ – H₂)], and ESPs for C₆H₅X and (HX + C₆H₆ – H₂), all in kcal mol⁻¹. All quantities evaluated at the corresponding equilibrium C₆H₅X^⋯Na⁺ distance. CCSD(T)/AVTZ interaction energies are in parentheses.

X	E_int(C₆H₅X)	E_int(HX + C₆H₆ – H₂)^a	ESP(C₆H₅X)	ESP(HX + C₆H₆ – H₂)^b
N(CH₃)₂	33.9	30.0	21.1	17.3
NHCH₃	33.1	30.0	21.0	17.9
NH₂	31.8 (28.2)	29.5 (26.0)	19.9	17.7
CH₂OH	29.5	28.5	17.4	16.4
NHOH	29.1	26.5	17.0	14.4
SCH₃	28.6	28.8	15.4	14.8
OCH₃	28.5	24.2	16.4	12.2
CH₃	28.3 (25.0)	28.1 (24.7)	16.4	16.1
H	26.9 (23.5)	26.9 (23.5)	15.9	15.9
OH	26.6	23.1	15.2	11.7
SH	26.3	26.7	13.6	13.4
SiH₃	26.0	29.9	13.3	16.2
CCH	25.4	24.7	12.4	12.2
CO₂CH₃	23.6	24.4	10.9	12.0
COCH₃	22.2	23.9	9.5	11.2
F	21.8 (19.0)	18.0 (15.3)	10.4	7.1
COOH	21.5	22.3	9.0	10.1
OCF₃	20.7	17.5	8.4	5.5
BF₂	20.2	22.7	8.0	10.4
CHO	19.7	21.8	7.2	9.4
CF3	19.4	19.5	7.2	7.5
SiF₃	18.5	21.2	6.0	8.3
NO	17.4	19.6	5.0	7.1
CN	16.0 (13.5)	15.6 (13.1)	3.4	3.6
NO₂	14.0	13.9	1.6	1.8

E_int(HX + C₆H₆ – H₂) = E_int(HX) + E_int(C₆H₆) – E_int(HH)

ESP(HX + C₆H₆ – H₂) = ESP(HX) + ESP(C₆H₆) – ESP(HH).