. 2018 Jun 12;11(6):999. doi: 10.3390/ma11060999

Table 1.

Literature data about TE properties of perovskite material.

Ref.	Materials	Seebeck (µV·K⁻¹)	Electrical Conductivity (S·cm⁻¹)	Thermal Conductivity (W·m⁻¹·K⁻¹)	Power Factor (µW·K⁻²·m⁻¹)	ZT	Measure Temp. (K)
[38]	La-Doped SrTiO₃	−260					298
[57]	Sr_0.85La_0.15TiO₃	175	400	3		0.28	873
[58]	SrTiO₃	210	250		200		300
[59]	reduced graphene oxide—SrTiO₃	−380	30			0.09	760
[40]	Sr_0.875Pr_0.125TiO₃	−80	3700			0.4	323
[60]	La-doped SrTiO₃	980			0.39		298
[61]	Sr_0.9La_0.1TiO₃	−250					1000
[62]	Sr_0.9Dy_0.1TiO₃ R = (La, Sm, Gd, Dy, Y)	−160	500	2.7		0.22	573
[63]	Sr_0.95La_0.05TiO₃	250	150	4.2	800	0.15	780
[64]	Sr_0.9La_0.1TiO₃	−225	300	3.2		0.21	750
[65]	La-doped SrTiO₃	−300	80	3.1		0.27	1073
[66]	Sr_0.96Ce_0.04TiO₃	−65					300
	Sr_0.98La_0.02TiO₃	−138					300
[67]	Sr₂CoTiO₆	60	10				1200
[68]	Sr(Ti_0.8Nb_0.2)O₃	−200		3.5	1300	0.37	1000
[69]	BaNb_0.01Ti_0.99O₃	−640					290
[70]	BaTiO₃	−550					300
[71]	Sr_0.9Y_0.1TiO₃	−130			120		420
[72]	Ba_0.3Sr_0.6La_0.1TiO₃	−110		4.4		0.13	420
[73]	Sr_0.45Ca_0.45La_0.1TiO₃	−195	250	3.7		0.22	850
[74]	Sr_0.98La_0.02TiO₃	−260	500	11		0.09	298
[75]	SrTiO₃/SrTi_0.8Nb_0.2O₃/SrTiO₃	−850	1400	12		2.4	300
[76]	Sr(Ti_0.8Nb_0.2)O₃			3		0.35	1000
[77]	Sr_0.2Eu_0.8Ti_0.8Nb_0.2O₃	170	0.5				1000
[78]	SrTi_0.9Ta_0.1O₃	−175	300	4.4		0.17	752
[79]	BaTiO₃	−620	0.17				300
[80]	PbTiO₃	110					300
	BaTiO₃	110					300
	SrTiO₃	100					300
[81]	SrTiO₃	−500					300
[82]	Nb-doped SrTiO₃	−540					1200
[83]	Sr_0.95La_0.05Ti_0.98Mn_0.02O₃	−150	833	3.9	20	0.15	300
[84]	La_0.25Sr_0.75TiO₃	450					300
[85]	n-type SrTiO₃	300				0.7	1400
[86]	Sr₂TiFeO₆	280	1.2		10		1130
[86]	Sr₂TiCoO₆	60	20		5.4		750
[39]	Ba_0.25Sr_1.75FeTiO₆	800			15		1123
[87]	Sr₂TiMoO₆	−10.8	960		11		1223
[88]	SrTiO₃	−150					1000
[89]	SrTi_0.5Co_0.5O₃	200				1.36	800
[90]	(Tb_0.1Ca_0.9)MnO₃	−140	−0.18			0.13	950
	(Ho_0.1Ca_0.9)MnO₃	−110	−0.18			0.08	950
	(Y_0.1Ca_0.9)MnO₃	−130	−0.2			0.15	950
[91]	(Ca_0.9Bi_0.1)MnO₃	80	10	4		0.095	1173
[92]	Sr_0.9Ce_0.1MnO₃	180	100				1273
[93]	CaMnO₃	−520					667
[94]	Ca_0.85Pr_0.15MnO_2.98	−130	111	1.5		0.17	1100
[95]	Ca_0.9Yb_0.1MnO₃	−150	133	1.6		0.16	970
[96]	Ca_0.8Dy_0.2MnO₃	−135	270		510		1073
[97]	Pr_0.3Sr_0.7MnO₃	−75	250	1.6		0.085	1073
[98]	Sm_0.25Ca_0.75MnO₃	−380					65
[99]	CaMn_0.88Mo_0.12O₃	−240	0.011				100
[100]	YNi_0.3Mn_0.7O₃	90					357
[101]	SrMnO₃	−110	50				300
[102]	CaMn_0.85Mo_0.15O₃ (Sm_0.2Ca_0.8MnO₃, Pr_0.15Sr_0.85MnO₃)	−270	10⁻⁴	0.6			80
[103]	Ca_0.96Bi_0.04MnO₃	−170	66.7	3.6	300	0.086	1000
[104]	CaMn_0.96Mo_0.04O₃	−90		3.4		0.012	270
[104]	CaMn_0.94Ru_0.06O₃	−140		5.4		0.0085	330
[105]	CaMn_0.98Ta_0.02O₃	−190	29			0.05	1000
[105]	CaMn_0.98Nb_0.02O₃	−205					1000
[106]	Ca_0.4Sr_0.6Mn_0.96Mo_0.04O₃	−110	50				220
[107]	CaMn_0.98Nb_0.02O₃	−255	31			0.32	1050
[108]	SrMn_0.7Ru_0.3O₃	−40	50	1.8		0.01	370
[109]	Ca_0.9Nd_0.1MnO₃	−150	160		398		1123
[110]	Sr(Mn_0.975Mo_0.025)O₃	−120	0.13	5		0.003	400
[111]	Ca_0.8Nd_0.2MnO₃	−62	280	1.3		0.17	873
[112]	Sr_0.9Ti_0.1MnO₃	−340	2.25		25		800
[113]	(Pr_0.9Ca_0.1)CoO₃	106	220	1.9		0.047	358
[114]	Pr_0.9Ca_0.1CoO₃ [RCoO₃ (R = Pr, Nd, Sm, Gd, Dy, Ho)]	125	220	1.6		0.046	450
[115]	TbCoO₃ DyCoO₃	80	200	1.6		0.05	873
[116]	Nd_0.95Sr_0.05CoO₃	130					400
[117]	Nd_0.99Sr_0.01CoO₃	300					290
[117]	Pr_0.99Sr_0.01CoO₃	450					270
[118]	LaCoO₃	1200					100
[119]	La_0.975Sr_0.025CoO₃	280					300
[120]	La_0.95Sr_0.05CoO₃	720	100				280
[121]	Ho_0.9Ca_0.1CoO₃	220	20	0.75		0.051	573
[122]	La_0.875Sr_0.125CoO₃	100		6		0.035	230
[123]	La_0.95Sr_0.05CoO₃	720	20	0.037		0.18	300
[124]	La_0.95Sr_0.05CoO₃	170		1.2		0.033	300
[125]	La_0.9Sr_0.1CoO₃	120		1.5		0.046	300
[126]	La_0.9Pb_0.1CoO₃	110	333	0.8		0.23	575
[127]	Nd_0.995Ca_0.005CoO₃	500	1.1				300
	LaCo_0.99Mn_0.01O₃	−200					300
[128]	La_0.97Ba_0.03CoO₃	80	40		80	0.08	420
[129]	YCo_0.98Ni_0.02O₃	900					300
[130]	LaCoO₃	600	0.067				300
	La_0.98Sr_0.02CoO₃	350	0.3				300
	La_0.99Ce_0.01CoO₃	−300	0.03				300
	LaCo_0.995Ga_0.005O₃	480					300
	LaCo_0.995Ti_0.005O₃	−200					300
[131]	LaCo_0.92Ni_0.08O_2.9	220	33.3	0.35		0.2	300
[132]	La_0.94Sr_0.06CoO₃	180		2		0.048	300
[133]	La_0.9Sr_0.1CoO₃					0.046	300
[134]	La_0.9Sr_0.1FeO₃	380					1173
[135]	Pr_0.9Sr_0.1FeO₃	140		0.8		0.024	850
[136]	La_0.95Sr_0.05FeO₃	230		1.8		0.076	1273
[137]	Ca₂FeMoO₆	−108	300	3.2		0.14	1250
	Ca_1.9Sr_0.1FeMoO₆	−110	250	3.0		0.14	1250
	Ca_1.8Sr_0.2FeMoO₆	−100	260	2.8		0.14	1250
[138]	Sr_1.6K_0.4FeMoO₆	−48		3.1	450	0.24	1250
[139]	Ba₂FeMoO₆	−1350				0.995	300
[140]	LaNi0.8Cu0.2O₃	−26	600		40		600
[141]	BaSn_0.99Co_0.01O₃	1000					700
[142]	Sr_0.98La_0.02SnO₃	−80	0.03				300
[143]	Ba_0.998La_0.002SnO₃	−170	150	4		0.1	1073
[144]	Sr_0.99La_0.01SnO₃	−80	1.5	3.6	120	0.05	1073
[145]	BaSnO₃	−130	300	3.4	1400	0.65	1200
[146]	Ba_0.4Sr_0.6PbO₃	125	250	2		0.13	673
[147]	Ba_0.2Sr_0.8PbO₃	−190	79	1.8		0.13	680
[148]	Sr_0.7Ba_0.3Pb_0.99Bi_0.01O₃	−70			390		900
[149]	Ba_0.77K_0.23BiO₃	3.2	10				290
[150]	BaBi_0.9Sb_0.1O₃	260			10		850
[151]	BaMoO₃	−30				0.015	1000
[152]	Sr_1.4Ba_0.6Fe_0.8Mo_0.8Mn_0.2V_0.2O₆	−58	316		83.2		973
[153]	SrRuO₃	36		5.3		0.03	1200
[154]	Sr₂RuYO₆	−250					1200
[154]	Sr₂RuErO₆	−250					1200
[155]	(Sr_0.95La_0.05)₂RuErO₆	−160				0.001	800
[156]	AgNbO₃	700 −500					800
[156]	AgTaO₃	710					800
[157]	K_0.991Ba_0.009TaO₃	200	333			0.03	300
[88]	KTaO₃	−280					1000
[158]	BaUO₃	−170	0.1	0.8		0.0002	880
[159]	BaCe_0.95Y_0.05O₃	−220					873
[35]	C₆H₄NH₂CuBr₂I	−82	2950	3.25		0.21	363
[33]	CH₃NH₃PbI₃-n-type	−238	160	0.1	8.4	0.61	300
	p-type	181	94	0.06	3.1	0.25	300
	n-type	−362	89	0.145	10.5	1.61	600
	p-type	295	41	0.06	3.6	0.71	600
	n-type	−428	68	0.151	11.3	2.56	800
	p-type	358	25	0.04	3.3	1.08	800
[160]	CH₃NH₃SnI₃	720	0.001	0.08		0.01	295
	CH₃NH₃PbI₃	700	10⁻⁷	0.5		10⁻⁷	295
[34]	(MA)PbI₃	200				0.44	298
	(MA)SnI₃	200				0.44	298
	(FA)PbI₃	100				0.43	298
	(FA)SnI₃	150				0.35	298
[161]	CH₃NH₃PbI₃-n-type	80	1.2			0.9	330
	CH₃NH₃PbI₃-p-type	50	1			1.25	330
[162]	CsSnI₃			0.18		0.63	1000
[162]	CsPbI₃			0.1		0.64	1000