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喜报 : 祝贺Energy & Environmental Materials被SCIE收录!

已有 4209 次阅读 2020-7-17 11:06 |系统分类:论文交流| 期刊, SCI期刊, SCI, 影响因子

2020年7月,Energy & Environmental Materials被Science Citation Index Expanded (SCIE)收录

Science Citation Index Expanded(科学引文索引) 作为Web of Science核心合集的三大数据库之一,是权威的、高影响力的科技期刊引文索引数据库,收录了全球自然科学、工程技术和临床医学等领域170多个学科的9300多种世界一流的学术期刊。被SCIE收录后,EEM自2018年创刊至今发表的全部文章,均可在Web of Science查询引用。2021年夏天,EEM将迎来创刊后的首个影响因子!   

Energy & Environmental Materials是由郑州大学主办、Wiley出版的一本高水平国际性同行评议期刊,于2018年3月创刊并出版第一期,至今发表了10期共计60篇能源与环境材料相关的最新高水平研究成果。EEM拥有一个领域内顶尖专家学者组成的国际化编委团队,发表的所有论文均经过快速严谨的同行评议。论文一经出版即可在Wiley Online Library上免费获取全文,目前免收出版费。EEM 已被Chemical Abstracts Service、Environment Index和INSPEC收录。





Energy & Environmental Materials (EEM) is an international journal published by Zhengzhou University in collaboration with John Wiley & Sons, Inc. for the publication of high quality, agenda-setting research related to materials for energy harvesting, conversion, storage, and transport as well as cleaner environment. EEM publishes research work of significant general interest with high impact on society-relevant technological advances.

The journal scope is intentionally broad and the journal recognizes the complexity of issues and challenges related to energy and environmental materials, and therefore, particularly welcomes experimental and theoretical work of interdisciplinary nature across basic science and engineering disciplines. The areas include but are not limited to materials and composites for:

  • Photovoltaics & photoelectrochemistry
  • Thermoelectricity, piezoelectricity, and triboelectricity
  • Batteries, fuel cells, and supercapacitors
  • Bioprocessing
  • Environmental remediation
  • Clean air
  • Carbon capture, storage, and utilization
  • Clean water, waste water treatment, and desalination
  • Devices with multifunctionality




  • Definitions of Pseudocapacitive Materials: A Brief Review. Jiang, Y. and Liu, J. Energy & Environmental Materials, 2019,2(1): 30-37. Citations: 106
  • Revisiting Scientific Issues for Industrial Applications of Lithium–Sulfur Batteries. Liu, B., Fang, R., Xie, D., Zhang, W., Huang, H., Xia, Y., Wang, X., Xia, X. and Tu, J. Energy & Environmental Materials, 2018, 1(4), 196-208. Citations: 37
  • A Perspective on Energy Densities of Rechargeable Li-S Batteries and Alternative Sulfur-Based Cathode Materials. Guo, W. and Fu, Y. Energy & Environmental Materials, 2018, 1(1), 20-27. Citations: 36
  • Nanostructured Anode Materials for Non-aqueous Lithium Ion Hybrid Capacitors. Han, C., Li, H., Shi, R., Xu, L., Li, J., Kang, F. and Li, B. Energy & Environmental Materials, 2018, 1(2), 75-87. Citations: 31
  • Recent Advances in Effective Reduction of Graphene Oxide for Highly Improved Performance Toward Electrochemical Energy Storage. Zhang, P., Li, Z., Zhang, S. and Shao, G. Energy & Environmental Materials, 2018, 1(1), 5-12. Citations: 32
  • A Review of Advanced Energy Materials for Magnesium–Sulfur Batteries. Kong, L., Yan, C., Huang, J.-Q., Zhao, M.-Q., Titirici, M.‐M., Xiang, R. and Zhang, Q. Energy & Environmental Materials, 2018, 1(3), 100-112. Citations: 28
  • Advances in Understanding Materials for Rechargeable Lithium Batteries by Atomic Force Microscopy. Wang, S., Liu, Q., Zhao, C., Lv, F., Qin, X., Du, H., Kang, F. and Li, B. Energy & Environmental Materials, 2018, 1(1), 28-40. Citations: 25
  • Scalable Deposition Methods for Large-area Production of Perovskite Thin Films. Swartwout, R., Hoerantner, M.T. and Bulović, V. Energy & Environmental Materials, 2019, 2(2), 119-145. Citations: 24
  • Recent Progress of MX ene-Based Nanomaterials in Flexible Energy Storage and Electronic Devices. Yang, Q., Wang, Y., Li, X., Li, H., Wang, Z., Tang, Z., Ma, L., Mo, F. and Zhi, C. Energy & Environmental Materials, 2018, 1(4), 183-195. Citations: 23
  • Ruddlesden–Popper Perovskite for Stable Solar Cells. Liang, C., Zhao, D., Li, Y., Li, X., Peng, S., Shao, G. and Xing, G. Energy & Environmental Materials, 2018, 1(4), 221-231. Citations: 21











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