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A New Bio-based Battery Material: Effect of Rate of Anthraquinone Skeleton Incorporation into Polyglycidol on Battery Performance

机译：一种新的生物电池材料：蒽醌骨架率掺入聚冠素对电池性能的影响

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A new battery material that is composed of polyglycidol and a redox-active anthraquinone unit (AQ) was prepared and was then used as a positive electrode for lithium ion batteries. Polyglycidol (pGD) is a bio-based polymer that is derived from the waste glycerin that is discarded during bio-diesel processing. The pGD-AQ electrode has a potential plateau at 2.3 V vs. Li~+/Li, and a discharge potential that decreased gradually with a capacity of 139 mAh g~(-1). The cycle-life stability of pGD-AQ is better than that of chloroanthraquinone, which was used as a reference material. A higher AQ skeleton incorporation rate into pGD leads to a higher battery capacity. These results show that the incorporation of the AQ unit into the polymer is an effective way to improve battery performance in terms of both capacity and cycle-life stability.

机译：制备了一种由聚腺苷和氧化还原活性蒽醌单元（AQ）组成的新电池材料，然后用作锂离子电池的正极。聚腺苷（PGD）是生物基聚合物，其衍生自生物柴油加工期间丢弃的废甘油。 PGD-AQ电极具有2.3V与Li〜+ / Li的潜在高原，并且逐渐降低的放电电位，其容量为139mAhg〜（-1）。 PGD-AQ的循环寿命稳定性优于氯嘌呤酮的稳定性，其用作参考材料。将较高的AQ骨架掺入率进入PGD，导致更高的电池容量。这些结果表明，在能力和循环寿命稳定性方面，将AQ单元掺入聚合物是改善电池性能的有效方法。

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《Eco-Energy and Materials Science and Engineering》|2016年|427p.|共6页
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作者
Atsushi Tsuzaki; Hisanori Ando; Masaru Yao;
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中图分类能源;
关键词
anthraquinone; biomass; organic battery; polyglycidol;

机译：蒽醌;生物量;有机电池;聚冠苷;

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2. Factors affecting the battery performance of anthraquinone-based organic cathode materials [J] . Wu Xu, Adam Read, Phillip K. Koech Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology . 2012,第9期

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3. Spray-Drying-Induced Assembly of Skeleton-Structured SnO2/Graphene Composite Spheres as Superior Anode Materials for High Performance Lithium-Ion Batteries [J] . Liu Dongdong, Kong Zhen, Liu Xuehua, ACS applied materials & interfaces . 2018,第3期

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5. A New Bio-based Battery Material: Effect of Rate of Anthraquinone Skeleton Incorporation into Polyglycidol on Battery Performance [C] . Atsushi Tsuzaki, Hisanori Ando, Masaru Yao Eco-Energy and Materials Science and Engineering . 2016

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A New Bio-based Battery Material: Effect of Rate of Anthraquinone Skeleton Incorporation into Polyglycidol on Battery Performance

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