Cationic polymerization of poly(vinyl ether) bearing a TEMPO radical: A new cathode-active material for organic radical batteries

被引:110
|
作者
Suguro, Masahiro [1 ]
Iwasa, Shigeyuki [1 ]
Kusachi, Yuki [1 ]
Morioka, Yukiko [1 ]
Nakahara, Kentaro [1 ]
机构
[1] NEC Corp Ltd, Nano Elect Res Lab, Tsukuba, Ibaraki 305, Japan
来源
MACROMOLECULAR RAPID COMMUNICATIONS | 2007年 / 28卷 / 18-19期
关键词
D O I
10.1002/marc.200700300
中图分类号
O63 [高分子化学(高聚物)];
学科分类号
070305 ; 080501 ; 081704 ;
摘要
PTVE was synthesized as a new active material for organic radical batteries. Cationic polymerization of a monomer bearing a TEMPO radical moiety took place. The spin concentration of PTVE was estimated to be 2.75 X 10(21) spins g(-1) (100% spin per repeating unit). The PTVE is extremely stable; there is no decrease in spin concentration when storing PTVE samples for more than a year under aerobic conditions at room temperature. The redox potential of PTVE is 3.55 V(vs. Li/Li(+)). A coin-type cell using a PTVE/VGCE composite electrode was also fabricated, and then performed charge/discharge measurements. The discharge capacity if PTVE is 114 mAh center dot g(-1) (84% of the theoretical value).
引用
收藏
页码:1929 / 1933
页数:5
相关论文
共 50 条
  • [1] Organic radical battery: nitroxide polymers as a cathode-active material
    Nishide, H
    Iwasa, S
    Pu, YJ
    Suga, T
    Nakahara, K
    Satoh, M
    ELECTROCHIMICA ACTA, 2004, 50 (2-3) : 827 - 831
  • [2] ORGANIC RADICAL BATTERY: NITROXIDE POLYMERS AS A CATHODE-ACTIVE MATERIAL
    Yuan, Yan
    Chen, Bai-zhen
    Xiao, Li-xin
    Xu, Hui
    Shi, Xi-chang
    Bai, Jing
    EPD CONGRESS 2009, PROCEEDINGS, 2009, : 379 - 383
  • [3] Syntheses and Electrochemical Properties of TEMPO Radical Substituted Silicones: Active Material for Organic Radical Batteries
    Suguro, Masahiro
    Mori, Atsunori
    Iwasa, Shigeyuki
    Nakahara, Kentaro
    Nakano, Kaichiro
    MACROMOLECULAR CHEMISTRY AND PHYSICS, 2009, 210 (17) : 1402 - 1407
  • [4] A novel polyphosphazene with nitroxide radical side groups as cathode-active material in Li-ion batteries
    Yesilot, Serkan
    Hacivelioglu, Ferda
    Kucukkoylu, Sedat
    Demir, Emrah
    Celik, Kamile Burcu
    Demir-Cakan, Rezan
    POLYMERS FOR ADVANCED TECHNOLOGIES, 2019, 30 (12) : 2977 - 2982
  • [5] Vinyl Ether/Vinyl Ester Copolymerization by Cationic and Radical Interconvertible Simultaneous Polymerization
    Satoh, Kotaro
    Fujiki, Yuuma
    Uchiyama, Mineto
    Kamigaito, Masami
    REVERSIBLE DEACTIVATION RADICAL POLYMERIZATION, VOL 2: MECHANISMS AND SYNTHETIC METHODOLOGIES, 2018, 1284 : 323 - 334
  • [6] Synthesis of Poly(TEMPO-Substituted Glycidyl Ether) by Utilizing t-BuOK/18-Crown-6 for an Organic Cathode-Active Material
    Sato, Kan
    Sukegawa, Takashi
    Oyaizu, Kenichi
    Nishide, Hiroyuki
    MACROMOLECULAR SYMPOSIA, 2015, 351 (01) : 90 - 96
  • [7] Atom transfer radical polymerization of poly(vinyl ether) macromonomers
    Yamada, K
    Miyazaki, M
    Ohno, K
    Fukuda, T
    Minoda, M
    MACROMOLECULES, 1999, 32 (02) : 290 - 293
  • [8] Atom transfer radical polymerization of poly(vinyl ether) macromonomers
    Minoda, Masahiko
    Yamada, Kenji
    Miyazaki, Masayuki
    Endo, Masaki
    Ohno, Kohji
    Fukuda, Takeshi
    American Chemical Society, Polymer Preprints, Division of Polymer Chemistry, 1999, 40 (02): : 399 - 400
  • [9] POLY(3-METHYLTHIOPHENE) - A STABLE CATHODE-ACTIVE MATERIAL FOR SECONDARY BATTERIES
    NAGATOMO, T
    OMOTO, O
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1988, 135 (09) : 2124 - 2128
  • [10] Blatter radical as a polymeric active material in organic batteries
    Saal, Adrian
    Friebe, Christian
    Schubert, Ulrich S.
    JOURNAL OF POWER SOURCES, 2022, 524
12345