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Hard Carbon: Quinone‐Based Redox Supercapacitor Using Highly Conductive Hard Carbon Derived from Oak Wood (Adv. Sustainable Syst. 11/2019)
Advanced Sustainable Systems ( IF 6.5 ) Pub Date : 2019-11-14 , DOI: 10.1002/adsu.201970023 Yuto Katsuyama 1 , Yuta Nakayasu 2 , Kotaro Oizumi 1 , Yui Fujihara 1 , Hiroaki Kobayashi 1 , Itaru Honma 1
Advanced Sustainable Systems ( IF 6.5 ) Pub Date : 2019-11-14 , DOI: 10.1002/adsu.201970023 Yuto Katsuyama 1 , Yuta Nakayasu 2 , Kotaro Oizumi 1 , Yui Fujihara 1 , Hiroaki Kobayashi 1 , Itaru Honma 1
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In article number 1900083, Yuta Nakayasu and co‐workers, prepare hard carbon by Japanese traditional carbonization of oak wood, showing a conductivity as high as that of artificial graphite. The use of oak‐derived hard carbon for quinone‐based organic supercapacitors dramatically improves the utilization rate of anode active material (97.6%) while that in conventional reports using petroleum‐derived activated carbon is 80% at most.
中文翻译:
硬碳:使用源自橡木的高导电硬碳的基于醌的氧化还原超级电容器(Adv。Sustainable Syst。11/2019)
Yuta Nakayasu及其同事在编号为1900083的文章中,通过日本传统的橡木碳化来制备硬碳,其导电性与人造石墨一样高。在基于醌的有机超级电容器中使用橡木衍生的硬碳可显着提高负极活性物质的利用率(97.6%),而在传统报告中,使用石油衍生的活性炭最多可达到80%。
更新日期:2019-11-14
中文翻译:
硬碳:使用源自橡木的高导电硬碳的基于醌的氧化还原超级电容器(Adv。Sustainable Syst。11/2019)
Yuta Nakayasu及其同事在编号为1900083的文章中,通过日本传统的橡木碳化来制备硬碳,其导电性与人造石墨一样高。在基于醌的有机超级电容器中使用橡木衍生的硬碳可显着提高负极活性物质的利用率(97.6%),而在传统报告中,使用石油衍生的活性炭最多可达到80%。
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