Chem. J. Chinese Universities ›› 2016, Vol. 37 ›› Issue (2): 213.doi: 10.7503/cjcu20150506
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MAO Jianxin1, NIE Guangdi1, LU Xiaofeng1, GAO Mu1, WANG Wei2, WANG Ce1,*()
Received:
2015-06-30
Online:
2016-02-10
Published:
2016-01-14
Contact:
WANG Ce
E-mail:cewang@jlu.edu.cn
Supported by:
CLC Number:
TrendMD:
MAO Jianxin, NIE Guangdi, LU Xiaofeng, GAO Mu, WANG Wei, WANG Ce. Conducting Polymer and Its Nanocomposites with Thermoelectric Properties†[J]. Chem. J. Chinese Universities, 2016, 37(2): 213.
Fig.4 Illustration of method used to measure S and σ[46] The electrical resistance for each electrode spacing(L), the temperature difference across the spacing(ΔT), and the thermal voltage(ΔV) [46].
Fig.6 Seebeck coefficient versue electrical conductivity(A) and temperature dependence of the electrical conductivity(normalized to 300 K) for various PEDOT derivatives(B)[49] (A) a. PEDOT-PSS; b. PEDOT-PSS(0.05% diethylene glycol); c. PEDOT-PSS(0.5% diethylene glycol); d. PEDOT-PSS(5% diethylene glycol); e. PEDOT-Tos; f. PEDOT-Tos(Mw=2900); g. PEDOT-Tos(DMF); h. PEDOT- Tos(Mw=5800, DMF); i. PEDOT-Tos PP; j. BiSbTe-alloys. (B) a. PEDOT-PSS; b. PEDOT-PSS(5% diethylene glycol); c. PEDOT-Tos; d. PEDOT- Tos(Mw=5800, DMF).
[1] | Zhang Q., Sun Y. M., Xu W., Zhu D. B., Adv. Mater., 2014, 26(40), 6829—6851 |
[2] | Liu W. S., Yan X., Chen G., Ren Z. F., Nano Energy, 2012, 1, 42—56 |
[3] | Xie W. J., He J., Kang H. J., Tang X. F., Zhu S., Laver M., Wang S. Y., Copley J. R. D., Brown C. M., Zhang Q. J., Tritt T. M., Nano Letters, 2010, 10, 3283—3289 |
[4] | Dubey N., Leclerc M., J. Polym. Sci. Polym. Phys., 2011, 49(7), 467—475 |
[5] | Kamarudin M. A., Shahrir R. S., Datta R. S., Long B. D., Sabri M. F. M., Said S. M.,The Scientific World Journal, 2013, 713640 |
[6] | Culebras M., Gómez C. M., Cantarero A., Materials, 2014, 7, 6701—6732 |
[7] | Du Y., Shen S. Z., Cai K. F., Casey P. S., Progress in Polymer Science, 2012, 37, 820—841 |
[8] | Yoon C. O., Reghu M., Moses D., Cao Y., Heeger A. J., Synthetic Metals, 1995, 69(1—3), 273—274 |
[9] | Jin J. Z., Wang Q., Haque M. A., J. Phys. D: Appl. Phys., 2010, 43, 205302 |
[10] | Yamaguchi I., Sada Y., Reactive & Functional Polymers, 2014, 83, 155—159 |
[11] | Yan H., Ohta T., Toshima N., Macromol. Mater. Eng., 2001, 286, 139—142 |
[12] | Liu J., Zhang L. M., He L., Tang X. F., J. Wuhan Univ. Techonl., 2003, 18(3), 53—55 |
[13] | Li J., Tang X., Li H., Yan Y., Zhang Q., Synthetic Metals, 2010, 160, 1153—1158 |
[14] | Nath C., Kumar A., Kuo Y. K., Okram G. S., Appl. Phys. Lett., 2014, 105, 133108 |
[15] | Yao Q., Wang Q., Wang L. M., Wang Y., Sun J., Zeng H. R., Jin Z. Y., Huang X. L., Chen L. D., J. Mater. Chem. A, 2014, 2, 2634—2640 |
[16] | Zhang K., Davis M., Qiu J., Hope-Weekes L., Wang S., Nanotechnology, 2012, 23, 385701 |
[17] | Kuriakose M., Depriester M., King R. C. Y., Roussel F., Sahraoui A. H., Journal of Applied Physics, 2013, 113(4), 044502 |
[18] | Yao Q., Chen L. D., Zhang W. Q., Liufu S. C., Chen X. H., ACS Nano, 2010, 4(4), 2445—2451 |
[19] | Islam R., Chan-Yu-King R., Brun J. F., Gors C., Addad A., Depriester M., Hadj-Sahraoui A., Roussel F., Nanotechnology, 2014, 25, 475705 |
[20] | Zheng B., Lin Y. H., Lan J. L., Yang X. P., J. Mater. Sci. Technol., 2014, 30(4), 423—426 |
[21] | Xu X.C., Chen L. D., Wang C. F., Yao Q., Feng C. D., Journal of Solid State Chemistry, 2005, 178, 2163—2166 |
[22] | Li Y., Zhao Q., Wang Y. G., Bi K., Materials Science in Semiconductor Processing, 2011, 14, 219—222 |
[23] | Chatterjee K., Mitra M., Kargupta K., Ganguly S., Banerjee D., Nanotechnology, 2013, 24, 215703 |
[24] | Chatterjee K., Ganguly S., Kargupta K., Banerjee D., Synthetic Metals, 2011, 161, 275—279 |
[25] | Maddison D. S., Unsworth J., Roberts R. B., Synthetic Metals, 1988, 26, 99—108 |
[26] | Kemp N. T., Kaiser A. B., Liu C. J., Chapman B., Mercier O., Carr M. A., Trodahl H. J., Buckley R. G., Partridge A. C., Lee J. Y., Kim C. Y., Bartl A., Dunsch L., Smith W. T., Shapiro J. S., J. Polym. Sci. Polym. Phys., 1999, 37, 953—960 |
[27] | Yan H., Ishida T., Toshima N.,Chem. Lett., 2001, 816—817 |
[28] | Liu J., Yu H. Q., Journal of Electronic Materials, 2014, 43(4), 1181—1187 |
[29] | Han S. B., Zhai W. T., Chen G. M., Wang X., RSC Adv., 2014, 4, 29281—29285 |
[30] | Wang L. Y., Liu F. Z., Jin C., Zhang T . R., Yin Q. J., RSC Adv., 2014, 4, 46187—46193 |
[31] | Hu E., Kaynak A., Li Y. C., Synthetic Metals, 2005, 150, 139—143 |
[32] | Wu J. S., Sun Y. M., Pei W. B., Huang L., Xu W., Zhang Q. C., Synthetic Metals, 2014, 196, 173—177 |
[33] | Levesque I., Gao X., Klug D. D., Tse J. S ., Ratcliffe C. I., Leclerc M., Reactive and Functional Polymers, 2005, 65, 23—36 |
[34] | Hiraishi K., Masuhara A., Nakanishi H., Oikawa H., Shinohara Y., Japan. J. Appl. Phys., 2009, 48, 071501 |
[35] | Yue R. R., Chen S., Lu B. Y., Liu C. C., Xu J. K., J. Solid State Electrochem., 2011, 15, 539—548 |
[36] | Sun J., Yeh M. L., Jung B. J., Zhang B., Feser J., Majumdar A., Katz H. E., Macromolecules, 2010, 43, 2897—2903 |
[37] | Golsanamlou Z., Tagani M. B., Soleimani H. R., Macromolecular Theory and Simulation, 2014, 23, 311—319 |
[38] | Wang L., Jia X., Wang D., Zhu G., Li J., Synthetic Metals, 2013, 181, 79—85 |
[39] | Du Y., Cai K. F. F., Shen S. Z., An B. J., Qin Z., Casey P. S., J. Mater Sci: Mater Electron., 2012, 23, 870—876 |
[40] | Lu B. Y., Chen S., Xu J. K., Zhao G. Q., Synthetic Metals, 2013, 183, 8—15 |
[41] | Chang K. C., Jeng M. S., Yang C. C., Chou Y. W., Wu S. K., Thomas M. A., Peng Y. C., Journal of Electronic Materials, 2009, 38(7), 1182—1188 |
[42] | Gao X., Uehara K., Klug D. D., Patchkovskii S., Tse J. S., Tritt T. M., Phys. Rev. B, 2005, 72, 125202 |
[43] | Liu C. C., Lu B. Y., Yan J., Xu J. K., Yue R. R., Zhu Z. J., Zhou S. Y., Hu X. J., Zhang Z., Chen P., Synthetic Metals, 2010, 160, 2481—2485 |
[44] | Zhang B., Sun J., Katz H. E., Fang F., Opila R. L., ACS Applied Materials and Interfaces, 2010, 2(11), 3170—3178 |
[45] | Song H. J., Liu C. C., Zhu H. F., Kong F. F., Lu B. Y., Xu J. K., Wang J. M., Zhao F., Journal of Electronic Materials, 2013, 42(6), 1268—1274 |
[46] | Kim G. H., Shao L., Zhang K., Pipe K. P., Nature Mat., 2013, 12, 719—723 |
[47] | Park T., Park C., Kim B., Shin H., Kim E., Energy Environ. Sci., 2013, 6, 788—792 |
[48] | Bubnova O., Khan Z. U., Malti A., Braun S., Fahlman M., Berggren M., Crispin X., Nature Mat., 2011, 10, 429—433 |
[49] | Bubnova O., Khan Z. U., Wang H., Braun S., Evans D. R., Fabretto M., Hojati-Talemi P., Dagnelund D., Arlin J. B., Geerts Y. H., Desbief S., Breiby D. W., Andreasen J. W., Lazzaroni R., Chen W. M. M., Zozoulenko I., Fahlman M., Murphy P. J., Berggren M., Crispin X., Nature Mat., 2014, 13, 190—194 |
[50] | Bi K. D., Weathers A., Matsushita S., Pettes M. T., Goh M., Akagi K., Shi L., Journal of Applied Physics, 2013, 114, 194302 |
[51] | Bubnova O., Crispin X., Energy Environ. Sci., 2012, 5, 9345—9362 |
[52] | Zotti G., Schiavon G., Zecchin S., Morin J.F., Leclerc M., Macromolecules, 2002, 35, 2122—2128 |
[53] | Yue R. R., Chen S., Liu C. C., Lu B. Y., Xu J. K., Wang J. M., Liu G. D., J. Solid State Electrochem., 2012, 16, 117—126 |
[54] | Aich R. B., Blouin N., Bouchard A., Leclerc M., Chem. Mater., 2009, 21, 751—757 |
[55] | Hiroshige Y., Ookawa M., Toshima N., Synthetic Metals, 2007, 157, 467—474 |
[56] | Tamayo E., Hayashi K., Shinano T., Miyazaki Y., Kajitani T., Appl. Surf. Sci., 2010, 256, 4554—4558 |
[57] | Itahara H., Maesato M., Asahi R., Yamochi H., Saito G., J. Electron Mater., 2009, 38, 1171—1175 |
[58] | Harada K., Sumino M., Adachi C., Tanaka S., Miyazaki K., Appl. Phys. Lett., 2010, 96, 253304 |
[59] | Wang Z.J., Study of Hydrogen Sensors of SnO2 Nanofibers and Thermoelectric Materials, Jilin University, Changchun, 2013 |
(王兆杰. SnO2基纳米纤维的氢气传感研究与热电材料初探, 长春: 吉林大学, 2013) |
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