《储能》(Energy Storage)是一本以ENERGY & FUELS综合研究为特色的国际期刊。该刊由Wiley-Blackwell出版商该刊已被国际重要权威数据库SCIE收录。期刊聚焦ENERGY & FUELS领域的重点研究和前沿进展,及时刊载和报道该领域的研究成果,致力于成为该领域同行进行快速学术交流的信息窗口与平台。该刊2023年影响因子为3.6。CiteSco...
Energy Storage由Wiley-Blackwell出版商出版,收稿方向涵盖ENERGY & FUELS全领域,平均审稿速度 ,影响因子指数3.6,该期刊近期没有被列入国际期刊预警名单,广大学者值得一试。 WOS分区(数据版本:2023-2024年最新版) 按JIF指标学科分区收录子集分区排名百分位 学科:ENERGY & FUELSESCIQ390 / 170 ...
View on Wiley Online Library Request Digital Evaluation Copy Description Energy storage examines different applications such as electric power generation, transmission and distribution systems, pulsed systems, transportation, buildings and mobile applications. For each of these applications, proper energy ...
Energy Storage ESCI EI JCR:Q3 发文量 731 被引量 4,927 影响因子(2023) 3.465主办单位: WILEY 出版周期: 双月刊 创刊时间: 2019年 收录汇总 栏目浏览 期刊详情 收录汇总 出版文献 期刊详情 分析评价 vol.6 (2024) vol.6 (2024) vol.5 (2023) vol.5 (2023) vol.5 (2022) vol.5 ...
《Energy Storage》国际简称:ENERGY STORAGE,是由出版商Wiley-Blackwell出版的一本致力于发布--研究新成果的的专业学术期刊。主要发表刊登有创见的学术论文文章、行业最新科研成果,扼要报道阶段性研究成果和重要研究工作的最新进展,选载对学科发展起指导作用的综述与专
重点关注清洁能源和环保领域。EcoEnergy致力于发布环保能源系统的原创性研究成果,例如: 可再生能源发电(renewable energy generation)、储能(energy storage)、能源利用(energy utilization)与能源相关过程中的环保技术(environmentally friendly technologies in energy related processes)。
Li metal anodes are the 'Holy Grail' of energy storage systems and they have shown significant advances recently. A more superior cycling stability and a higher utilization ratio of the Li metal anode have been achieved by additive- and nanostructure-stabilized SEI layers. A profound understanding...
In article number 1502018, Weidong He and co-workers present the use of the electrophoretic deposition (EPD) technique for assembling an energy conversion/storage device to power the green world. The advantages of EPD in the assembly of nanomaterials for energy conversion/storage devices are unprece...
Over the last century, energy storage systems (ESSs) have continued to evolve and adapt to changing energy requirements and technological advances. Energy Storage in Power Systems describes the essential principles needed to understand the role
Role of surface structure on Li-ion energy storage capacity of two-dimensional transition-metal carbides. J. Am. Chem. Soc. 136, 6385–6394 (2014). Article CAS Google Scholar Yu, Y.-X. Prediction of mobility, enhanced storage capacity, and volume change during sodiation on interlayer-...