机译:电化学储能:互连的SnO2纳米颗粒的有序网络,可实现出色的锂离子存储(Adv。Energy Mater。5/2015)
School of Chemical Engineering Purdue University West Lafayette Indiana USA;
Department of Chemistry and Biotechnology Swedish University of Agricultural Sciences Uppsala Sweden;
School of Chemical Engineering Purdue University West Lafayette Indiana USA;
Department of Forest Products/Wood Science Swedish University of Agricultural Sciences Uppsala Sweden;
ENSCCF Institute de Chimie de Clermont-Ferrand Clermont UniversitÉ Clermont-Ferrand France;
CNRS UMR 6296 ICCF Aubiere France;
Department of Chemistry and Biotechnology Swedish University of Agricultural Sciences Uppsala Sweden;
School of Chemical Engineering Purdue University West Lafayette Indiana USA;
cassiterite; electrochemical energy storage; interfacial kinetics; lithium-ion batteries; mesoporosity;
机译:SnO2-SiC核壳纳米颗粒上原位生成高性能石墨离子涂层的很少层石墨烯涂层(Adv。Energy Mater.1 / 2012)
机译:锂离子电池:无序的富氟化锂作为稳定的主体,可增强Li +嵌入存储(Adv。Energy Mater。9/2015)
机译:互连的SnO2纳米粒子的有序网络可实现出色的锂离子存储
机译:石墨碳氮化物:电化学能量转换和储存中的复合电极的优异基础
机译:中孔材料中的纳米颗粒:能量存储应用的光学和电化学性质。
机译:碳纳米管上的电化学活性结晶介孔共价有机骨架用于锂离子电池的协同储能
机译:电化学储能:电化学储能基于MOF的材料孔隙率工程(ADV。能源母体。20/2021)
机译:电化学储能系统的技术和经济评估,第3卷:电力系统中电池储能的经济评估:最终报告,1978年9月 - 1985年5月