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酚醛树脂改性沥青基硬碳的制备及储钠性能研究
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作者 李旭东 谭晓杰 +3 位作者 刘亚超 王瑞 刘钦莲 赵青山 《现代化工》 CAS CSCD 北大核心 2024年第S01期118-123,共6页
石油沥青作为炼油副产品被用作多种碳质材料前驱体,但在高温碳化过程中易石墨化,不利于钠离子储存。将酚醛树脂引入硬质沥青共碳化,促进沥青分子与酚醛树脂分子间的交联,抑制碳层熔融重排,得到酚醛树脂改性沥青基硬碳材料。当酚醛树脂... 石油沥青作为炼油副产品被用作多种碳质材料前驱体,但在高温碳化过程中易石墨化,不利于钠离子储存。将酚醛树脂引入硬质沥青共碳化,促进沥青分子与酚醛树脂分子间的交联,抑制碳层熔融重排,得到酚醛树脂改性沥青基硬碳材料。当酚醛树脂添加质量比例为1∶1时,在1200℃碳化所得硬碳材料具有最佳的储钠电化学性能。在0.05 A/g电流密度下,比容量达270.2 mAh/g,首次库仑效率为63.8%。在0.3 A/g电流密度下,循环1200圈后容量保持率达71.6%。 展开更多
关键词 硬质沥青 酚醛树脂 改性 硬碳 钠离子电池
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The potassium storage performance of carbon nanosheets derived from heavy oils
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作者 ZHAO Qing-shan LIU Qin-lian +6 位作者 LI Yi-wen JI Tian YAO Yu-yue ZHAO Yi-kun DENG Wei HU Han WU Ming-bo 《新型炭材料(中英文)》 SCIE EI CAS CSCD 北大核心 2024年第5期1003-1014,共12页
As by-products of petroleum refining,heavy oils are characterized by a high carbon content,low cost and great variability,making them competitive precursors for the anodes of potassium ion batteries(PIBs).However,the ... As by-products of petroleum refining,heavy oils are characterized by a high carbon content,low cost and great variability,making them competitive precursors for the anodes of potassium ion batteries(PIBs).However,the relationship between heavy oil composition and potassium storage performance remains unclear.Using heavy oils containing distinct chemical groups as the carbon source,namely fluid catalytic cracking slurry(FCCS),petroleum asphalt(PA)and deoiled asphalt(DOA),three carbon nanosheets(CNS)were prepared through a molten salt method,and used as the anodes for PIBs.The composition of the heavy oil determines the lamellar thicknesses,sp3-C/sp2-C ratio and defect concentration,thereby affecting the potassium storage performance.The high content of aromatic hydrocarbons and moderate amount of heavy component moieties in FCCS produce carbon nanosheets(CNS-FCCS)that have a smaller layer thickness,larger interlayer spacing(0.372 nm),and increased number of folds than in CNS derived from the other three precursors.These features give it faster charge/ion transfer,more potassium storage sites and better reaction kinetics.CNS-FCCS has a remarkable K^(+)storage capacity(248.7 mAh g^(-1) after 100 cycles at 0.1 A g^(-1)),long cycle lifespan(190.8 mAh g^(-1) after 800 cycles at 1.0 A g^(-1))and excellent rate capability,ranking it among the best materials for this application.This work sheds light on the influence of heavy oil composition on carbon structure and electrochemical performance,and provides guidance for the design and development of advanced heavy oil-derived carbon electrodes for PIBs. 展开更多
关键词 Heavy oils Carbon nanosheets Molten salt method Four-component composition Potassium-ion batteries
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