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NML专刊主题:高安全水系电池
周江 教授
中南大学 材料科学与工程学院
E-mail: zhou_jiang@csu.edu.cn
周江,中南大学教授,博士生导师。入选中组部万人计划青年拔尖人才、科睿唯安全球高被引科学家(2021、2022)、爱思唯尔中国高被引学者、湖湘青年英才、湖湘青年科技创新人才,湖南省杰出青年基金获得者。曾先后在新加坡南洋理工大学、美国麻省理工学院从事科研工作。研究兴趣为水系锌电池、锂(钠、钾)离子电池、电池回收等。近五年,研究成果以第一作者或通讯作者发表在Natl. Sci. Rev., Adv. Mater., Energy Environ. Sci., Angew. Chem., Matter, Nano-Micro Lett., 科学通报等国内外一流期刊100余篇。论文总被引17000余次,H-index指数68,曾先后入选ESI高被引论文60余篇,热点论文30余篇,“中国百篇最具影响国际学术论文” 3篇。主持或参与国家自然科学基金重点、面上、青年、湖南省杰出青年基金等项目。目前担任Nano-Micro Letters、Frontiers in Chemistry期刊Associate Editor、物理化学学报、InfoMat、eScience、J. Adv. Ceram.期刊编委或青年编委。
范红金 教授
南洋理工大学 数理学院
E-mail: fanhj@ntu.edu.sg
截止投稿时间:2023年9月15号
High-safety Aqueous Batteries”专刊,旨在快速报道水系储能领域的最新研究成果,总结和展望高安全水系电池在未来规模化储能和可穿戴器件领域的潜力、困境和新突破,构建水系电池的理论体系与标准。
专刊包括但不限于以下研究内容:
(1)水系离子电池,包括H+, NH4+, Li+, Na+, K+, Zn2+, Ca2+, Fe2+, Mg2+, Mn2+, Al3+等;
(2)电池构型,包括扣式电池、液流电池、解耦电池、准固态电池和柔性电池等;
(3)水系电池正负极、电解质与隔膜等关键材料;
注:专刊对所有作者开放投稿。原文和综述文章均可。所有论文都将经过严格的同行评审,只要是符合该专刊征稿内容,同时达到《Nano-Micro Letters》稿件质量的稿源都欢迎!
Collection: High-safety Aqueous Batteries
Special Issue Guest Editor:
Prof. Jiang Zhou (Central South University, China)
School of Materials Science and Engineering, Central South University, Changsha, China.
E-mail: zhou_jiang@csu.edu.cn
Prof. Hong Jin Fan (Nanyang Technological University, Singapore)
School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore.
E-mail: fanhj@ntu.edu.sg
Expected FIRST submission date: 1 April 2023
Deadline for FINAL submission: 15 September 2023
Call for high-safety, low-cost, and long-cycle-life aqueous batteries. The global focus on efficient energy conversion, storage, release, and reuse has intensified with the rapid development of new battery technology. Aqueous energy storage technologies, specifically those that prioritize high safety, low cost, and long cycle life, have recently garnered extensive attention as a solution to the demand for large-scale energy storage and wearable device power sources. These technologies, such as aqueous zinc-based batteries, are known for their environmentally friendly components and are a promising alternative to lithium-ion batteries, which have repeatedly posed safety concerns. It is likely that high-safety aqueous batteries will dominate future large-scale energy storage markets, but to achieve this, there are new challenges that must be addressed. Specifically, how can we achieve high energy density and long-term stability of these aqueous batteries simultaneously?
The Collection of "High safety Aqueous Batteries" aims to report on the latest breakthroughs in the field of high-safety aqueous batteries, with the goal of advancing large-scale energy storage and wearable devices, as well as establishing standards for rational data reporting.
(1)Aqueous ion batteries based on the storage of H+, NH4+, Li+, Na+, K+, Zn2+, Ca2+, Fe2+, Mg2+, Mn2+, Al3+, etc.
(2)Battery types including coin cells, flow cells, decoupled cells, quasi-solid cells, and flexible cells.
(3)Advanced materials for cathode, anode, electrolyte, and separator.
Noted:
• The Collection is open for submissions from all authors (not by invitation only).
• Both research articles and reviews are welcome.
• All submissions will be handled by the in-house editors and go through the regular peer review process of Nano-Micro Letters.
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