Flexible thermoelectric materials based on conducting polymers doped with silicone polymer electrolyte

被引:6
|
作者
Imae, Ichiro [1 ]
Kataoka, Hiroki [1 ]
Harima, Yutaka [1 ]
机构
[1] Hiroshima Univ, Grad Sch Engn, Dept Appl Chem, 1-4-1 Kagamiyama, Higashihiroshima, Hiroshima 7398527, Japan
来源
MOLECULAR CRYSTALS AND LIQUID CRYSTALS | 2019年 / 685卷 / 01期
关键词
flexibility; free-standing films; thermoelectric; conducting polymers; polysiloxane; FILMS; POLYPYRROLE; PERFORMANCE; PEDOTPSS; PROPERTY;
D O I
10.1080/15421406.2019.1645467
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Novel conducting polymers doped with siloxane-based polyanion have been synthesized and their mechanical and thermoelectric properties were investigated. Free-standing properties and flexibility of these polymer films were compared with conducting polymers doped with conventional polyanion composed of carbon-carbon backbone. Thermoelectric properties were found to not be affected by the chemical structures of dopant polyanions.
引用
收藏
页码:100 / 106
页数:7
相关论文
共 50 条
  • [21] A flexible capacitor based on conducting polymer electrodes
    Kim, B. C.
    Too, C. O.
    Kwon, J. S.
    Bo, J. M.
    Wallace, G. G.
    SYNTHETIC METALS, 2011, 161 (11-12) : 1130 - 1132
  • [22] Investigation of the thermoelectric response in conducting polymers doped by solid-state diffusion
    Kang, K.
    Schott, S.
    Venkateshvaran, D.
    Broch, K.
    Schweicher, G.
    Harkin, D.
    Jellett, C.
    Nielsen, C. B.
    McCulloch, I.
    Sirringhaus, H.
    MATERIALS TODAY PHYSICS, 2019, 8 : 112 - 122
  • [23] Conducting polymer-based flexible supercapacitor
    Shown, Indrajit
    Ganguly, Abhijit
    Chen, Li-Chyong
    Chen, Kuei-Hsien
    ENERGY SCIENCE & ENGINEERING, 2015, 3 (01): : 2 - 26
  • [24] Roll type conducting polymer legs for rigid-flexible thermoelectric generator
    Park, Teahoon
    Lim, Hanwhuy
    Hwang, Jong Un
    Na, Jongbeom
    Lee, Hyunki
    Kim, Eunkyoung
    APL MATERIALS, 2017, 5 (07):
  • [25] MICROWAVE ABSORBING MATERIALS BASED ON CONDUCTING POLYMERS
    OLMEDO, L
    HOURQUEBIE, P
    JOUSSE, F
    ADVANCED MATERIALS, 1993, 5 (05) : 373 - 377
  • [26] CHARACTERISATION OF PROTON CONDUCTING POLYMER ELECTROLYTE BASED ON PAN
    Nithya, S.
    Selvasekarapandian, S.
    Rajeswari, N.
    Sikkanthar, S.
    Karthikeyan, S.
    Sanjeeviraja, C.
    Solid State Ionics: Ionics for Sustainable World, 2013, : 212 - 220
  • [27] Mixed solid device based on conducting polymer composite and polymer electrolyte
    Neves, S
    Fonseca, CP
    JOURNAL OF THE BRAZILIAN CHEMICAL SOCIETY, 2004, 15 (03) : 395 - 399
  • [28] Nanocomposites of Conducting Polymers and 2D Materials for Flexible Supercapacitors
    Zhu, Haipeng
    Xu, Ruiqi
    Wan, Tao
    Yuan, Wenxiong
    Shu, Kewei
    Boonprakob, Natkritta
    Zhao, Chen
    POLYMERS, 2024, 16 (06)
  • [29] Flexible nanocellulose enhanced Li+ conducting membrane for solid polymer electrolyte
    Qin, Hengfei
    Fu, Kun
    Zhang, Ying
    Ye, Yuhang
    Song, Mingyao
    Kuang, Yudi
    Jang, Soo-Hwan
    Jiang, Feng
    Cui, Lifeng
    ENERGY STORAGE MATERIALS, 2020, 28 : 293 - 299
  • [30] Proton-conducting polymer electrolyte based on PVA-PAN blend doped with ammonium thiocyanate
    Sivadevi, S.
    Selvasekarapandian, S.
    Karthikeyan, S.
    Sanjeeviraja, C.
    Nithya, H.
    Iwai, Y.
    Kawamura, J.
    IONICS, 2015, 21 (04) : 1017 - 1029
12345