Organic Electronics for Electrochromic Materials and Devices. Hong Meng
Читать онлайн книгу.Finally, struggling to find suitable composite electrolytes with high conductivities during wide range of temperature always deserves more study. Commercial electrolytes require high ionic conductivity at room temperature, safety, and easy processing.
References
1 1 Nguyen, C.A., Xiong, S., Ma, J. et al. (2009). The Journal of Physical Chemistry B 113: 8006.
2 2 Fenton, D.E., Parker, J.M., and Wright, P.V. (1973). Polymer 14: 589.
3 3 Shriver, D. and Bruce, P. (1995). Solid State Electrochemistry, 95. Cambridge: Cambridge University Press.
4 4 Choudhury, N., Sampath, S., and Shukla, A. (2009). Energy & Environmental Science 2: 55.
5 5 Agrawal, R. and Pandey, G. (2008). Journal of Physics D: Applied Physics 41: 223001.
6 6 Meyer, W.H. (1998). Advanced Materials 10: 439.
7 7 Ramesh, S. and Lu, S. (2012). Journal of Applied Polymer Science 126: 484.
8 8 Wu, T.‐Y., Li, W.‐B., Kuo, C.‐W. et al. (2013). International Journal of Electrochemical Science: 10720.
9 9 Sa'adun, N.N., Subramaniam, R., and Kasi, R. (2014). The Scientific World Journal: 2014.
10 10 Susan, M.A.B.H., Kaneko, T., Noda, A., and Watanabe, M. (2005). Journal of the American Chemical Society 127: 4976.
11 11 Thakur, V.K., Ding, G., Ma, J. et al. (2012). Advanced Materials 24: 4071.
12 12 Sekhon, S., Arora, N., and Singh, H.P. (2003). Solid State Ionics 160: 301.
13 13 Feuillade, G. and Perche, P. (1975). Journal of Applied Electrochemistry 5: 63.
14 14 Song, J., Wang, Y., and Wan, C.C. (1999). Journal of Power Sources 77: 183.
15 15 Chen, P., Liang, X., Wang, J. et al. (2017). Journal of Sol‐Gel Science and Technology 81: 850.
16 16 Azens, A., Avendano, E., Backholm, J. et al. (2005). Materials Science and Engineering B 119: 214.
17 17 Naji, A., Ghanbaja, J., Willmann, P. et al. (1996). Journal of Power Sources 62: 141.
18 18 Fey, G., Hsieh, M., Jaw, H., and Lee, T. (1993). Journal of Power Sources 44: 673.
19 19 Takami, N., Ohsaki, T., and Inada, K. (1992). Journal of the Electrochemical Society 139: 1849.
20 20 Kumar, B., Schaffer, J.D., Nookala, M., and Scanlon, L.G. Jr. (1994). Journal of Power Sources 47: 63.
21 21 Imoto, K., Takahashi, K., Yamaguchi, T. et al. (2003). Solar Energy Materials and Solar Cells 79: 459.
22 22 Agnihotry, S., Pradeep, P., and Sekhon, S. (1999). Electrochimica Acta 44: 3121.
23 23 Cowie, J.M.G. and Arrighi, V. (2007). Polymers: Chemistry and Physics of Modern Materials. CRC press.
24 24 Wang, Y., Chen, K.S., Mishler, J. et al. (2011). Applied Energy 88: 981.
25 25 Miller, M. and Bazylak, A. (2011). Journal of Power Sources 196: 601.
26 26 Beaujuge, P.M. and Reynolds, J.R. (2010). Chemical Reviews 110: 268.
27 27 Gaupp, C.L., Zong, K., Schottland, P. et al. (2000). Macromolecules 33: 1132.
28 28 Pennarun, P.‐Y. and Jannasch, P. (2005). Solid State Ionics 176: 1103.
29 29 Pennarun, P.‐Y., Papaefthimiou, S., Yianoulis, P., and Jannasch, P. (2007). Solar Energy Materials and Solar Cells 91: 330.
30 30 Boehme, J.L., Mudigonda, D.S., and Ferraris, J.P. (2001). Chemistry of Materials 13: 4469.
31 31 Yang, C.‐H., Huang, L.‐R., Chih, Y.‐K., and Chung, S.‐L. (2007). The Journal of Physical Chemistry C 111: 3786.
32 32 Reiter, J., Krejza, O., and Sedlaříková, M. (2009). Solar Energy Materials and Solar Cells 93: 249.
33 33 C. Sherwood, F. Price, R. Stein, "Effect of shear on the crystallization kinetics of poly (ethylene oxide) and poly (e‐caprolactone) melts", presented at Journal of Polymer Science, Polymer Symposia, 1978.
34 34 Armand, M., Chabagno, J., and Duclot, M. (1978). Second International Meeting on Solid Electrolytes, presented at Extended Abstracts (20−22 September), St. Andrews, Scotland.
35 35 Pitawala, H., Dissanayake, M., and Seneviratne, V. (2007). Solid State Ionics 178: 885.
36 36