国产期刊再创佳绩——National Science Review位列全球综合性期刊第5名!


近几年来,随着中国学术影响力的持续提升,国产学术期刊发展势头也更加迅猛,《中国科学》杂志社旗下的National Science Review去年获得首个影响因子8,今年继续升高到8.843,SCIENCE CHINA Materials首个影响因子达到了3.956,SCIENCE CHINA Chemistry的SCI影响因子为4.132,Science Bulletin更名后首个影响因子达到4.0,全部跻身对应学科JCR一区,Journal of energy chemistry影响因子2.594,另外上海交通大学主办的Nano-Micro Letters影响因子从上升到4.849

材料人网作为材料类综合性门户网站,专注于材料相关新闻报道,尤其是学术动态的跟踪,除了关注国际高质量期刊动态,我们还全力支持并持续追踪国内优秀期刊的相关报道,并与以上期刊以及中国科学出版社、MDPI和 Taylor & Francis Group等知名杂志社共同举办滚球体育 资讯写作大赛材料人网为期刊和科研团队免费宣传学术工作,您可以通过tougao@cailiaoren.com联系我们,参加大赛。

2017年6月14日,科睿唯安发布了2017年度期刊引证报告(Journal Citation Reports,JCR)。National Science Review(NSR,《国家科学评论》,https://academic.oup.com/nsr)最新影响因子为8.843,在SCI收录的64种全球综合性学术期刊中排名第5位。

材料人与National Science Review编辑部并持续报道相关动态,以下为近期文章:

Richard Nötzel教授NSR最新综述:InN/InGaN量子点电化学器件:解决能源和健康问题的新思路

滚球体育 资讯写作大赛|蒋三平教授Natl. Sci. Rev.:燃料电池技术展望

滚球体育 资讯写作大赛|中科院金属所卢磊Natl.Sci.Rev.:纳米孪晶金属的变形与断裂机理研究

滚球体育 资讯写作大赛|Natl. Sci. Rev.:多元金属有机框架化合物(MTV-MOFs)

滚球体育 资讯写作大赛|Natl.Sci.Rev.专题|量子物理与量子点器件(特邀编辑牛智川)

叶金花&刘乐全Natl.Sci.Rev.最新综述:金属纳米材料诱导的可见光催化

大牛带你尽览储能前沿-Natl.Sci.Rev.储能材料综述专题(特邀编辑曹国忠)

戴黎明Natl.Sci.Rev.最新综述:用于高效能量存储的碳基超级电容器

Natl.Sci.Rev.最新综述:新型电池的4S法则-Stable、Safe、Smart、Sustainable

Natl.Sci.Rev.综述:环境友好高性能低成本Mg2Si基热电材料

夏幼南Natl. Sci. Rev.最新综述:贵金属纳米框架的理性设计与合成及其在催化和光电子学中的应用

Natl. Sci. Rev.综述:自旋电子学材料第一性原理设计

Natl. Sci. Rev.综述:可用于无质量和无耗散自旋电子器件的自旋无带隙半导体及新型反常量子霍尔效应

NSR是为了适应我国科学研究国际地位快速提升而创办的综述类期刊。作为中国第一份英文版综述性学术期刊(双月刊),NSR致力于全面展示国内外各科学领域的代表性研究成果,追踪报道重大滚球体育 事件,深度解读中外科学界热点研究和重要滚球体育 政策等。NSR的栏目包括综述、原始研究论文、观点、研究亮点、社论、访谈、论坛、特色研究机构等。

NSR的主管机构为中国科学院,主办和出版单位为科学出版社,海外推广与牛津大学出版社合作进行。NSR采用全文免费获取(Free Access)的出版模式,全文存储平台选择稳定性强、国际显示度高的SilverChair数字出版平台。NSR中文推广网站采用由《中国科学》杂志社自主研发的SciEngine滚球体育 期刊发布平台,作者和读者可以通过中文推广网站了解期刊动态、查询最新文章、阅读中文推介和各学科文章合集等。

NSR的编委会由189名国际知名科学家组成,其中以中国科学院外籍院士为主的国际编委占39%。主编为白春礼,执行主编为蒲慕明,各学科副主编分别为:薛其坤【数理科学】、高松【化学科学】、施一公【生命科学】、周忠和【地球科学】、赵东元【材料科学】、郭雷【信息科学】。

自创刊以来,NSR发表了众多国内外优秀科学家的综述文章和研究论文,也刊载了大量关于学术研究热点和滚球体育 政策方面的访谈、论坛和观点类文章。为NSR贡献文章的材料领域专家如下:

包信和、曹国忠、陈仙辉、陈永胜、成会明、崔田、戴鹏程、邓宏魁、封东来、冯新亮、高华健、高松、郭玉国、韩布兴、黄永刚、江雷、蒋三平、李灿、李峰、李亚栋、李振、刘俊、刘磊、刘文剑、刘志荣、刘忠范、麦立强、南策文、宁志军、牛智川、帅志刚、孙玉刚、谭蔚泓、唐本忠、万立骏、汪林望、汪卫华、王晓临、王中林、夏永姚、夏幼南、向涛、谢在库、许康、薛其坤、闫兵、杨金龙、杨震、张凤玲、张富春、张华、张校刚、张新波、周其林、周琪、朱道本、朱嘉、Gabriele Centi, Antonios G. Mikos, K.C Nicolaou, Jens K. Nørskov, Richard Nötzel, Bert M. Weckhuysen 等。

以下为NSR已发表的材料领域文章汇总,文章全文可以免费下载,欢迎关注!

NSR材料领域综述合集

[1]Colloidal quantum dots surface and device structure engineering for high performance light emitting diodes

Shang Yuequn Ning Zhijun

National Science Review 4(2), 170-183 (2017) 10.1093/nsr/nww097

[2]Progress and directions in low-cost redox flow batteries for large-scale energy storage

Li Bin Liu Jun

National Science Review 4(1), 91-105 (2017) 10.1093/nsr/nww098

[3]InN/InGaN quantum dot electrochemical devices:New solutions for energy and health

Nötzel Richard

National Science Review 4(2), 184-195 (2017) 10.1093/nsr/nww101

[4]Energy storage through intercalation reactions: electrodes for rechargeable batteries

Massé Robert C. Liu Chaofeng Li Yanwei Mai Liqiang Cao Guozhong

National Science Review 4(1), 26-53 (2017) 10.1093/nsr/nww093

[5]Dirac spin-gapless semiconductors: promising platforms for massless and dissipationless spintronics and new (quantum) anomalous spin Hall effects

Wang Xiao-Lin

National Science Review 4(2), 252-257 (2017) 10.1093/nsr/nww069


更多NSR材料领域综述合集精彩内容请通过扫描二维码或登录下方网址获取!

【链接】:http://engine.scichina.com/collections/2iao7Yka3SuqZPa2A

NSR材料领域观点合集

[1]Polymer nanocomposite dielectrics for electrical energy storage

Shen Yang Zhang Xin Li Ming Lin Yuanhua Nan Ce-Wen

National Science Review 4(1), 23-25 (2017) 10.1093/nsr/nww066

[2]Prospects of Fuel Cell Technologies

Wang Shuangyin Jiang San Ping

National Science Review 4(2), 163-167 (2017) 10.1093/nsr/nww099

[3]Nano products in daily life: to know what we do not know

Wei Yongyi Yan Bing

National Science Review 3(4), 414-415 (2016) 10.1093/nsr/nww073

[4]Manipulating interphases in batteries

Xu Kang

National Science Review 4(1), 19-20 (2017) 10.1093/nsr/nww043

[5]Flexible batteries ahead

Wen Lei Chen Jing Liang Ji Li Feng Cheng Hui-Ming

National Science Review 4(1), 20-23 (2017) 10.1093/nsr/nww041

更多NSR材料领域观点合集精彩内容请通过扫描二维码或登录下方网址获取!

【链接】:http://engine.scichina.com/collections/rsa26aYnRE8poPYJh

NSR材料相关专题

※拓扑绝缘体(特约编辑:薛其坤)

[1]Preface to the special topic on topological insulators

Xue Qi-Kun

National Science Review 1(1), 31-31 (2014) 10.1093/nsr/nwt038

[2]Predicting organic topological materials

Liu Feng Wu Jian

National Science Review 1(1), 32-32 (2014) 10.1093/nsr/nwt011

[3]Realizing the quantum anomalous Hall effect in materials with in-plane magnetization

Tang Peizhe Duan Wenhui

National Science Review 1(1), 33-33 (2014) 10.1093/nsr/nwt027

[4]Topological insulating phase in commonly used semiconductors

Chang Kai

National Science Review 1(1), 34-35 (2014) 10.1093/nsr/nwt030

[5]Creating Majorana fermions in topological insulators

Liu Canhua Jia Jin-Feng

National Science Review 1(1), 36-37 (2014) 10.1093/nsr/nwt036

更多拓扑绝缘体精彩内容请通过扫描二维码或登录下方网址获取!

【链接】:

http://engine.scichina.com/publisher/scp/journal/NSR/specialTopics/postArticles/vASLEckxFQACxrnNM

※石墨烯——从基础科学到实用技术(特约编辑:刘忠范)

[1]Graphene-From basic science to useful technology

Liu Zhongfan

National Science Review 2(1), 16-16 (2015) 10.1093/nsr/nwv006

[2]Advances in electrokinetics revealed in graphene

Liu Zhongfan

National Science Review 2(1), 17-18 (2015) 10.1093/nsr/nwv007

[3]Two-dimensional synthetic templates

Huang Xiao Zhang Hua

National Science Review 2(1), 19-21 (2015) 10.1093/nsr/nwu069

[4]The rare two-dimensional materials with Dirac cones

Wang Jinying Deng Shibin Liu Zhongfan Liu Zhirong

National Science Review 2(1), 22-39 (2015) 10.1093/nsr/nwu080

[5]Three-dimensional graphene networks: synthesis, properties and applications

Ma Yanfeng Chen Yongsheng

National Science Review 2(1), 40-53 (2015) 10.1093/nsr/nwu072

[6]Can graphene keep its promise?

Ball Philip

National Science Review 2(1), 54-56 (2015) 10.1093/nsr/nwu05

更多石墨烯精彩内容请通过扫描二维码或登录下方网址获取!

【链接】:

http://engine.scichina.com/publisher/scp/journal/NSR/specialTopics/postArticles/aw7fNnQRitDnrs8KM

※面向未来的催化研究(特约编辑:包信和)

[1]Preface: catalysis-key to a sustainable future

Bao Xinhe

National Science Review 2(2), 137-137 (2015) 10.1093/nsr/nwv026

[2]Water splitting by carbon under visible light

Su Dangsheng

National Science Review 2(2), 138-139 (2015) 10.1093/nsr/nwv025

[3]New design paradigm for heterogeneous catalysts

Vojvodic Aleksandra Nørskov Jens K.

National Science Review 2(2), 140-149 (2015) 10.1093/nsr/nwv023

[4]Energy-related catalysis

Abate Salvatore Centi Gabriele Perathoner Siglinda

National Science Review 2(2), 143-145 (2015) 10.1093/nsr/nwv017

[5]Photocatalysis in solar fuel production

Han Hongxian Li Can

National Science Review 2(2), 145-147 (2015) 10.1093/nsr/nwv016

更多关于催化的精彩内容请通过扫描二维码或登录下方网址获取!

【链接】:

http://engine.scichina.com/publisher/scp/journal/NSR/specialTopics/postArticles/DjmceESBFqZsq2Dsy

※储能材料(特约编辑:曹国忠)

[1]Search for Better Materials for Rechargeable Electric Energy Storage

Cao Guozhong

National Science Review 4(1), 16-16 (2017) 10.1093/nsr/nww091

[2]Taming lithium metal through seeded growth

Yao Yan

National Science Review 4(1), 17-18 (2017) 10.1093/nsr/nww084

[3]Manipulating interphases in batteries

Xu Kang

National Science Review 4(1), 19-20 (2017) 10.1093/nsr/nww043

[4]Flexible batteries ahead

Wen Lei Chen Jing Liang Ji Li Feng Cheng Hui-Ming

National Science Review 4(1), 20-23 (2017) 10.1093/nsr/nww041

[5]Polymer nanocomposite dielectrics for electrical energy storage

Shen Yang Zhang Xin Li Ming Lin Yuanhua Nan Ce-Wen

National Science Review 4(1), 23-25 (2017) 10.1093/nsr/nww066

更多关于储能材料的精彩内容请通过扫描二维码或登录下方网址获取!

【链接】:http://engine.scichina.com/publisher/scp/journal/NSR/specialTopics/postArticles/q4ccotEoaTtPoaZoA

※量子物理与量子点器件(特约编辑:牛智川)

[1]Preface to the special topic on quantum dots

Niu Zhichuan

National Science Review 4(2), 167-167 (2017) 10.1093/nsr/nwx020

[2]Towards quantum network

Tang Jian-Shun Zhou Zong-Quan Li Chuan-Feng

National Science Review 4(2), 168-169 (2017) 10.1093/nsr/nww051

[3]Colloidal quantum dots surface and device structure engineering for high performance light emitting diodes

Shang Yuequn Ning Zhijun

National Science Review 4(2), 170-183 (2017) 10.1093/nsr/nww097

[4]InN/InGaN quantum dot electrochemical devices:New solutions for energy and health

Nötzel Richard

National Science Review 4(2), 184-195 (2017) 10.1093/nsr/nww101

[5]Self-assembled semiconductor quantum dots decorating the facets of GaAs nanowire for single-photon emission

Yu Ying Zha Guo-Wei Shang Xiang-Jun Yang Shuang Sun Ban-Quan Ni Hai-Qiao Niu Zhi-Chuan

National Science Review 4(2), 196-209 (2017) 10.1093/nsr/nwx042

[6]Quantum engineering of matter from the laboratory to the market: an interview with Dieter Bimberg and Kang Wang

Ball Philip

National Science Review 4(2), 210-212 (2017) 10.1093/nsr/nww067

更多关于量子物理与量子点器件的精彩内容请通过扫描二维码或登录下方网址获取!

【链接】:

http://engine.scichina.com/publisher/scp/journal/NSR/specialTopics/postArticles/qXt38QzjFg2PDtbf9

材料人支持国内期刊的发展,点击NSR官网了解更多详细内容。

英文网址:https://academic.oup.com/nsr

中文网址:www.nsr.org.cn

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