A TEMPO-substituted polyacryiamide as a new cathode material: an organic rechargeable device composed of polymer electrodes and aqueous electrolyte

Kenichiroh Koshika; Natsuru Chikushi; Naoki Sano

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A TEMPO-substituted polyacryiamide as a new cathode material: an organic rechargeable device composed of polymer electrodes and aqueous electrolyte

机译：TEMPO取代的聚丙烯酰胺作为新型阴极材料：一种由聚合物电极和水性电解质组成的有机可充电设备

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Poly(2,2,6,6-tetramethylpiperidinyloxy-4-yl acrylamide) was designed and synthesized as an electrode-active polymer for an organic rechargeable device containing an aqueous electrolyte. The device demonstrated a 1.2 V output voltage, exceeded 2000 charging-discharging cycles, and had a high charging rate performance within 1 min.

机译：设计并合成了聚（2,2,6,6-四甲基哌啶基氧基-4-基丙烯酰胺），作为包含水电解质的有机可充电装置的电极活性聚合物。该器件的输出电压为1.2 V，超过2000个充放电周期，并在1分钟内具有较高的充电速率性能。

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《Green chemistry》 |2010年第9期|共3页
作者
Kenichiroh Koshika; Natsuru Chikushi; Naoki Sano;
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1. A TEMPO-substituted polyacryiamide as a new cathode material: an organic rechargeable device composed of polymer electrodes and aqueous electrolyte [J] . Kenichiroh Koshika, Natsuru Chikushi, Naoki Sano Green chemistry . 2010,第9期

机译：TEMPO取代的聚丙烯酰胺作为新型阴极材料：一种由聚合物电极和水性电解质组成的有机可充电设备
2. Enhanced zinc electrode rechargeability in alkaline electrolytes containing hydrophilic organic materials with positive electrode compatibility [J] . Kakeya Tadashi, Nakata Akiyoshi, Arai Hajime, Journal of power sources . 2018,第DECa15期

机译：含有亲水性有机材料且具有正极兼容性的碱性电解液中锌电极的可充电性增强
3. Fabrication and characterization of oxide fine-mesh electrodes composed of Sb-SnO_2 and study of oxygen evolution from the electrolysis of electrolyte-free water in a solid polymer electrolyte filter-press cell: Possibilities for the combustion of organic pollutants [J] . Ismael C. Goncalves, Wallans T. P. dos Santos, Debora V. Franco, Electrochimica Acta . 2014,第Null期

机译：由Sb-SnO_2组成的氧化物细孔电极的制备和表征，以及固体聚合物电解质压滤池中无电解质水电解产生的氧气的研究：有机污染物燃烧的可能性
4. Synthesis of Poly(TEMPO-Substituted Glycidyl ether) by Utilizing t-BuOK/18-Crown-6 for an Organic Cathode-Active Material [C] . Kan Sato, Takashi Sukegawa, Kenichi Oyaizu Internationalymposium on MacroMolecular Complexes . 2015

机译：利用用于有机阴极 - 活性物质的T-Buok / 18-Crown-6来合成聚（Tempo-取代的缩水甘油醚）
5. Synthesis and characterization of cathode, anode and electrolyte materials for rechargeable lithium batteries. [D] . Yang, Shoufeng. 2003

机译：可充电锂电池正极，负极和电解质材料的合成与表征。
6. A Comparative Review of Electrolytes for Organic‐Material‐Based Energy‐Storage Devices Employing Solid Electrodes and Redox Fluids [O] . Dr. Ruiyong Chen, Dr. Dominic Bresser, Dr. Mohit Saraf, -1

机译：使用固体电极和氧化还原液的有机材料储能装置电解质的比较研究
7. Conducting Redox Polymer as a Robust Organic Electrode‐Active Material in Acidic Aqueous Electrolyte towards Polymer–Air Secondary Batteries [O] . Kouki Oka, Christian Strietzel, Rikard Emanuelsson, 2020

机译：将氧化还原聚合物作为玻璃水性电解质中的耐磨性有机电极活性材料朝向聚合物 - 空气二次电池
8. Solar Energy Conversion: Photoelectrochemical and Electrochemical Studies of Organic Conducting Polymer-Coated Electrodes in Aqueous Electrolyte [R] . Frank, A. J., Cooper, J., Noufi, R., 1982

机译：太阳能转换：有机导电聚合物涂层电极在水电解质中的光电化学和电化学研究

A TEMPO-substituted polyacryiamide as a new cathode material: an organic rechargeable device composed of polymer electrodes and aqueous electrolyte

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