npj 2D Materials and Applications的收稿类型比较广泛,包括研究论文、简短通讯、评论、社论、观点和综述文章等类型的稿件都可以在该期刊上进行发表。 6、发文量 npj 2D Materials and Applications的发文量自创刊以来呈现波动上涨的发展趋势,2022-2023年该刊的发文量为87篇,预计未来该刊
为未来氢能的生产提供了创新思路,其相关研究成果以Two-dimensional C20-based monolayers and heterostructures for photocatalytic overall water splitting为题,发表在Nature子刊npj 2D Materials and Applications,辽宁大学为论文第一作者及通讯作者...
npj 2D Materials and Applications is a new Nature Research journal dedicated to publishing high-quality research that focus on 2D materials and their applications.
期刊名称:NPJ 2D MATERIALS AND APPLICATIONS 另可提供SCI论文发表及建议,论文翻译,润色,格式排版,论文查重检测,稿件参考文献引用(高倍引)等服务 研究方向:Engineering-Mechanics of Materials ISSN:2397-7132 E-ISSN:2397-7132 影响因子:9.324 分区:中科院1区;JCR:Q1 检索类型:Article 检索情况:SCI检索 语种:...
研究方向:Engineering - Mechanics of Materials 杂志简介 SCIE期刊 学科领域:MATERIALS SCIENCE, MULTIDISCIPLINARY npj 2D Materials and Applications is a new open access, online-only journal with broad coverage of 2D materials, including allotropes and compounds, ultralight composite materials, their propert...
recipient of the 2021 ERC Starting Grant with a project on Janus 2D materials. With her team in Italy and in Germany, she works on the synthesis and characterization of novel low-dimensional systems for use in energy-related and (opto)electronic applications, with major focus on sustainability....
过渡金属碳/氮化物(MXenes)作为一种新兴的二维(2D)材料,在储氢、电池、电磁干扰屏蔽、催化、传感器、超级电容器等领域具有广阔的应用前景。本文综述了MXenes(包括MXenes纳米片及其复合材料)作为电催化剂在…
Npj 2d 材料和应用(Npj 2d Materials And Applications)是一本由Springer Nature出版的一本Engineering-Mechanics of Materials学术刊物,主要报道Engineering-Mechanics of Materials相关领域研究成果与实践。本刊已入选来源期刊,该刊创刊于2017年,出版周期Continuous publication。2021-2022年最新版WOS分区等级:Q1,2023年发布...
近日,香港中文大学电子工程系许建斌教授、李昕明博士(共同通讯作者)与合作者在npj 2D Materials and Applications上发表题为“Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity”的文章,本文第一作者为香港中文大学博士研究生陶立。本文作者设计了在光电导...
《Npj 2d Materials And Applications》是一本由Springer Nature出版的Engineering-Mechanics of Materials学术刊物,主要刊载Engineering-Mechanics of Materials相关领域研究成果与实践,旨在打造一种学术水平高、可读性强、具有全球影响力的学术期刊。本刊已入选SCIE来源