Carbon Energy由温州大学与Wiley携手创办，聚焦清洁能源、光电催化的“碳增”合成、新型碳制造、碳减排以及碳催化等领域，旨在成为国内外优秀科研成果展示的高端平台、国家重大科研战略的助推器和广大科研工作者喜爱阅读的科研工具。Carbon Energy第一批论文已于2019年9月5日正式上线。全部论文均为开放获取，读者可免费获取。

文章列表：
1.The critical role of carbon in marrying silicon and graphite anodes for high energy lithium-ion batteries
Jingxing Wu,Yinliang Cao,Haimin Zhao,Jianfeng Mao*, Zaiping Guo*
Carbon Energy.2019
DOI: 10.1002/cey2.2

The co‐utilization of Si and graphite has emerged as the most practical anode for high‐energy lithium‐ion batteries, but there are still significant challenges. The carbon additives play important roles in integrating the Si and graphite with tailored structure, morphology, and surface, and are discussed along with the synthesis methods and strategies to provide insights for further development and commercialization of Silicon/Graphite/Carbon (Si/G/C) anodes in the future.

2.Optimizing interfacial electronic coupling with metal oxide to activate inert polyaniline for superior electrocatalytic hydrogen generation
Zhen‐Feng Huang，Jiajia Song，Yonghua Du，Shuo Dou，Libo Sun，Wei Chen，Kaidi Yuan，Zhengfei Dai，Xin Wang*
Carbon Energy.2019
DOI: 10.1002/cey2.3

A common strategy of activating hydrogen evolution on the originally inert polyaniline by proper interfacial electronic coupling with metal oxide is reported. Experimental and theoretical calculations show that the d‐π electronic coupling can optimize the electronic structure of polyaniline (PANI) surface at the interfacial N site, leading to the superior electrocatalytic production of hydrogen.

        Carbon Energy收录碳材料和能源领域等相关热点研究的高质量学术论文，欢迎立意新颖、紧跟学术前沿、研究深入的原创工作。Carbon Energy的文章类型包括Highlight、Riview和Minireview、Research和Profile。
具体的投稿范围包括但不限于以下内容：
1.新型碳材料
2.光催化、电催化
3.能源储存与转化：电池、超级电容器、燃料电池、太阳能电池
4.能源相关有机材料和低维纳米材料
5.碳减排如二氧化碳储存和转化、热电技术
6.光电合成

欢迎访问Carbon Energy期刊2024年最新杏吧视频官方网站：
或