Hong Meng

Organic Electronics for Electrochromic Materials and Devices


Скачать книгу

Visco, S.J., Liu, M., Doeff, M.M. et al. (1993). Solid State Ionics 60: 175.

      38 38 Baudry, P., Aegerter, M.A., Deroo, D., and Valla, B. (1991). Journal of the Electrochemical Society 138: 460.

      39 39 Su, L., Wang, H., and Lu, Z. (1998). Materials Chemistry and Physics 56: 266.

      40 40 Desai, S., Shepherd, R.L., Innis, P.C. et al. (2011). Electrochimica Acta 56: 4408.

      41 41 Yang, C.‐H., Chong, L.‐W., Huang, L.‐M. et al. (2005). Materials Chemistry and Physics 91: 154.

      42 42 Nishikitani, Y., Uchida, S., Asano, T. et al. (2008). The Journal of Physical Chemistry C 112: 4372.

      43 43 Mendoza, N., Paraguay‐Delgado, F., Hechavarría, L. et al. (2011). Solar Energy Materials and Solar Cells 95: 2478.

      44 44 Panero, S., Scrosati, B., Baret, M. et al. (1995). Solar Energy Materials and Solar Cells 39: 239.

      45 45 Vasilopoulou, M., Raptis, I., Argitis, P. et al. (2006). Microelectronic Engineering 83: 1414.

      46 46 Y. Zhou, P. Gu, J. Tang, "Electrochromic device with a polymer ionic conductor", presented at Optical Materials Technology for Energy Efficiency and Solar Energy Conversion XII, 1993.

      47 47 Andersson, A.M., Granqvist, C.G., and Stevens, J.R. (1989). Applied Optics 28: 3295.

      48 48 Argun, A., Cirpan, A., and Reynolds, J. (2003). Advanced Materials 15: 1338.

      49 49 Oral, A., Koyuncu, S., and Kaya, İ. (2009). Synthetic Metals 159: 1620.

      50 50 Tung, T.‐S. and Ho, K.‐C. (2006). Solar Energy Materials and Solar Cells 90: 521.

      51 51 Yang, X., Cong, S., Li, J. et al. (2019). Solar Energy Materials and Solar Cells 200: 109952.

      52 52 Kim, J.T., Song, J., Ryu, H., and Ah, C.S. (2020). Advanced Optical Materials: 1901464.

      53 53 Fabretto, M., Vaithianathan, T., Hall, C. et al. (2008). Electrochimica Acta 53: 2250.

      54 54 Jia, P., Yee, W.A., Xu, J. et al. (2011). Journal of Membrane Science 376: 283.

      55 55 Lang, A.W., Österholm, A.M., and Reynolds, J.R. (2019). Advanced Functional Materials 29: 1903487.

      56 56 Çelik, E. (2013). Journal of Materials: 2013.

      57 57 Zheng, R., Zhang, J., Jia, C. et al. (2017). Polymer Chemistry 8: 6981.

      58 58 Li, J., Qi, S., Liang, J. et al. (2015). ACS Applied Materials & Interfaces 7: 14140.

      59 59 Liang, J., Li, L., Niu, X. et al. (2013). Nature Photonics 7: 817.

      60 60 Sun, H., You, X., Jiang, Y. et al. (2014). Angewandte Chemie International Edition 53: 9526.

      61 61 Ko, J., Kim, Y.‐J., and Kim, Y.S. (2016). ACS Applied Materials & Interfaces 8: 23854.

      62 62 Han, L., Lu, X., Wang, M. et al. (2017). Small 13: 1601916.

      63 63 Cao, Y., Morrissey, T.G., Acome, E. et al. (2017). Advanced Materials 29: 1605099.

      64 64 Canadell, J., Goossens, H., and Klumperman, B. (2011). Macromolecules 44: 2536.

      65 65 Yoon, J.A., Kamada, J., Koynov, K. et al. (2012). Macromolecules 45: 142.

      66 66 Chao, A., Negulescu, I., and Zhang, D. (2016). Macromolecules 49: 6277.

      67 67 Wei, Z., Yang, J.H., Zhou, J. et al. (2014). Chemical Society Reviews 43: 8114.

      68 68 Xu, Z., Zhao, Y., Wang, X., and Lin, T. (2013). Chemical Communications 49: 6755.

      69 69 White, S.R., Sottos, N.R., Geubelle, P.H. et al. (2001). Nature 409: 794.

      70 70 Caruso, M.M., Delafuente, D.A., Ho, V. et al. (2007). Macromolecules 40: 8830.

      71 71 Trask, R., Williams, G., and Bond, I. (2007). Journal of the Royal Society Interface 4: 363.

      72 72 Gong, Z., Zhang, G., Zeng, X. et al. (2016). ACS Applied Materials & Interfaces 8: 24030.

      73 73 Moon, H.C., Lodge, T.P., and Frisbie, C.D. (2015). Chemistry of Materials 27: 1420.

      74 74 Michaelis, L. and Hill, E.S. (1933). The Journal of General Physiology 16: 859.

      75 75 Seo, D.G. and Moon, H.C. (2018). Advanced Functional Materials 28: 1706948.

      76 76 Zhou, N.C., Xu, C., Burghardt, W.R. et al. (2006). Macromolecules 39: 2373.

      77 77 Jang, S., Moon, H.C., Kwak, J. et al. (2014). Macromolecules 47: 5295.

      78 78 Alsalhy, Q.F., Rashid, K.T., Ibrahim, S.S. et al. (2013). Journal of Applied Polymer Science 129: 3304.

      79 79 Saikia, B.J. and Dolui, S.K. (2016). Journal of Polymer Science Part A: Polymer Chemistry 54: 1842.

      80 80 Ulaganathan, M., Nithya, R., Rajendran, S., and Raghu, S. (2012). Solid State Ionics 218: 7.

      81 81 Ponmani, S., Kalaiselvimary, J., and Prabhu, M.R. (2018). Journal of Solid State Electrochemistry 22: 2605.

      82 82 Ko, J., Surendran, A., Febriansyah, B., and Leong, W.L. (2019). Organic Electronics 71: 199.

      83 83 Kavitha, A.A. and Singha, N.K. (2009). ACS Applied Materials & Interfaces 1: 1427.

      84 84 Zheng, R., Fan, Y., Wang, Y. et al. (2018). Electrochimica Acta 286: 296.

      85 85 Nishimoto, A., Agehara, K., Furuya, N. et al. (1999). Macromolecules 32: 1541.

      86 86 Kang, Y., Cheong, K., Noh, K.‐A. et al. (2003). Journal of Power Sources 119: 432.

      87 87 Kono, M., Hayashi, E., and Watanabe, M. (1998). Journal of the Electrochemical Society 145: 1521.

      88 88 Wen, Z., Itoh, T., Uno, T. et al. (2003). Solid State Ionics 160: 141.

      89 89 Matsui, S., Muranaga, T., Higobashi, H. et al. (2001). Journal of Power Sources 97: 772.

      90 90 Kuratomi, J., Iguchi, T., Bando, T. et al. (2001). Journal of Power Sources 97: 801.

      91 91 Matoba, Y., Ikeda, Y., and Kohjiya, S. (2002). Solid State Ionics 147: 403.

      92 92 Lee, K.‐H., Kim, K.‐H., and Lim, H.S. (2001). Journal of the Electrochemical Society 148: A1148.

      93 93 Chen, F., Ren, Y., Guo, J., and Yan, F. (2017). Chemical Communications 53: 1595.

      94 94 Li, S., Zhang, S.Q., Shen, L. et al. (2020). Advanced Science 7: 1903088.

      95 95 Aravindan, V. and Vickraman, P. (2008). Journal of Applied Polymer Science 108: 1314.

      96 96 Liu, W., Lin, D., Sun, J. et al. (2016). ACS Nano 10: 11407.

      97 97 Ling, S.‐G., Peng, J.‐Y., Yang, Q. et al. (2018). Chinese Physics B 27: 038201.

      98 98 Keller, M., Appetecchi, G.B., Kim, G.‐T. et al. (2017). Journal of Power Sources 353: 287.

      99 99 Do, J.‐S., Chang, C.‐P., and Lee, T.‐J. (1996). Solid State Ionics 89: 291.

      100 100 Subianto, S., Mistry, M.K., Choudhury, N.R. et al. (2009). ACS Applied Materials & Interfaces 1: 1173.

      101 101 Ketabi, S. and Lian, K. (2013). Electrochimica Acta 103: 174.

      102 102 Tambelli, C., Bloise, A., Rosario, A. et al. (2002). Electrochimica Acta 47: 1677.

      103 103 Pal, P. and Ghosh, A. (2018). Electrochimica Acta 260: 157.

      104 104 Weston, J. and Steele, B. (1982). Solid State Ionics 7: 75.

      105 105 Kontos, G., Soulintzis, A., Karahaliou, P. et al. (2007). Express Polymer Letters 1: 781.

      106 106 Capuano, F., Croce, F., and Scrosati, B. (1991). Journal of the Electrochemical Society 138: 1918.

      107 107 Chandrasekhar, V. (1998). Blockcopolymers‐Polyelectrolytes‐Biodegradation, 139. Springer.

      108 108 Liang, B., Tang, S., Jiang, Q. et al. (2015). Electrochimica Acta 169: 334.

      109 109 Nan, C.‐W., Fan, L., Lin, Y., and Cai, Q. (2003). Physical Review Letters 91: 266104.

      110 110