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Energy & Environmental Science journal
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Energy & Environmental Science
A journal linking all aspects of the chemical, physical and biotechnological sciences relating to energy conversion and storage, alternative fuel technologies and environmental science
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Energy & Environmental Science is a Transformative Journal, and Plan S compliant
Impact factor: 32.5*
Time to first decision (all decisions): 13.0 days**
Time to first decision (peer reviewed only): 36.0 days***
Chair: Jenny Nelson
Open access publishing options available
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Meet the team
Journal scope
Energy & Environmental Science is an international journal dedicated to publishing exceptionally important and high quality, agenda-setting research tackling the key global and societal challenges of ensuring the provision of energy and protecting our environment for the future.
The scope is intentionally broad and the journal recognises the complexity of issues and challenges relating to energy conversion and storage, alternative fuel technologies and environmental science. For work to be published it must be linked to the energy-environment nexus and be of significant general interest to our community-spanning readership. All scales of studies and analysis, from impactful fundamental advances, to interdisciplinary research across the (bio)chemical, (bio/geo)physical sciences and chemical engineering disciplines are welcomed.
Topics include, but are not limited to, the following:
Solar energy conversion and photovoltaics
Solar fuels and artificial photosynthesis
Fuel cells
Hydrogen storage and (bio) hydrogen production
Materials for energy systems
Capture, storage and fate of CO2, including chemicals and fuels from CO2
Catalysis for a variety of feedstocks (for example, oil, gas, coal, biomass and synthesis gas)
Biofuels and biorefineries
Materials in extreme environments
Environmental impacts of energy technologies
Global atmospheric chemistry and climate change as related to energy systems
Water-energy nexus
Energy systems and networks
Globally applicable principles of energy policy and techno-economics
Energy & Environmental Science is part of the Royal Society of Chemistry’s energy portfolio. Find out more about our companion journals, including EES Catalysis, Sustainable Energy & Fuels, Journal of Materials Chemistry A and Energy Advances.
Energy & Environmental Science Lectureship
This Lectureship recognises an outstanding emerging investigator working on an energy research topic within the scope of Energy & Environmental Science, providing a platform to showcase their research to the wider scientific community.
Find out more about eligibility, how to nominate, nomination deadlines and see all the winners of this award.
Meet the team
Find out who is on the editorial and advisory boards for the Energy & Environmental Science journal.
Editorial board
Chair
Jenny Nelson, Imperial College London, UK
Editorial board members
Xinhe Bao, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, China
Christoph Brabec, University of Erlangen-Nuremberg, Germany
Jaephil Cho, Ulsan National Institute of Science & Technology, South Korea
William Chueh, Stanford University, USA
Kazunari Domen, The University of Tokyo, Japan
Linda Nazar, University of Waterloo, Canada
Jan Rossmeisl, University of Copenhagen, Denmark
Jennifer Wilcox, University of Pennsylvania, USA
Karen Wilson, Griffith University, Australia
Advisory board
Markus Antonietti, Max Planck Institute of Colloids and Interfaces, Germany
Juan Bisquert, Jaume I University, Spain
Bernie Bulkin, Sustainable Development Commission, UK
Stephen Campbell, Automotive Fuel Cell Cooperation, Canada
Emily Carter, Princeton University, USA
Kylie Catchpole, Australian National University, Australia
Jaephil Cho, Ulsan National Institute of Science and Technology (UNIST), Korea
Wonyong Choi, Korea Institute of Energy Technology, Korea
Ib Chorkendorff, Technical University of Denmark, Denmark
Peter Dobson, University of Oxford, UK
Nieves Espinosa, University of Murcia, Spain
Hongjin Fan, Nanyang Technological University, Singapore
Elzbieta Frackowiak, Poznan University of Technology, Poland
Hermenegildo García, Instituto de Tecnología Química CSIC-UPV, Spain
José Goldemberg, University of São Paulo, Brazil
Harry Gray, California Institute of Technology (Caltech), USA
Dirk Guldi, University Erlangen-Nürnberg, Germany
Anders Hagfeldt, École polytechnique fédérale de Lausanne EPFL, Switzerland
Laura Herz, University of Oxford, UK
Steven Holdcroft, Simon Fraser University/NRC, Canada
George Huber, University of Wisconsin-Madison, USA
Oliver Inderwildi, University of Oxford, UK
Saiful Islam, University of Oxford, UK
Mercouri G Kanatzidis, Northwestern University, USA
Thomas Kirchartz, Forschungszentrum Jülich (FZJ), Germany
Akihiko Kudo, Tokyo University of Science, Japan
Pooi See Lee, Nanyang Technological University, Singapore
Nathan Lewis, California Institute of Technology (Caltech), USA
Chengdu Liang, Center for Nano-phase Materials Sciences Oak Ridge National Laboratory, USA
Jeffrey R Long, University of California Berkeley, USA
Yi-Chun Lu, Chinese University of Hong Kong, China
Christopher R McNeill, Monash University, Australia
Shelley Minteer, The University of Utah, USA
Arthur Nozik, National Renewable Energy Laboratory, USA
Satish Ogale, Indian Institute of Science Education and Research IISER, Pune, India
Annamaria Petrozza, Istituto Italiano di Tecnologia, Italy
Zhiyong Jason Ren, Princeton University, USA
Rodney Ruoff, Ulsan National Institute of Science & Technology, Korea
Jennifer Rupp, Massachusetts Institute of Technology, USA
Srinivasan Sampath, Indian Institute of Science, India
Uwe Schröder, TU-Braunschweig, Germany
David Sinton, University of Toronto, Canada
Henry Snaith, University of Oxford, UK
Robert Socolow, Princeton University, USA
Jefferson W Tester, Cornell University, USA
Dan Wang, Institute of Process Engineering, Chinese Academy of Sciences, China
Peng Wang, Zhejiang University, China
Michael R Wasielewski, Northwestern University, USA
Li-Zhu Wu, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, China
Bilge Yildiz, Massachusetts Institute of Technology, USA
Kyung Byung Yoon, Sogang University, Korea
Yan Yu, University of Science and Technology of China, China
Jincai Zhao, Center for Molecular Science, China
Tim S Zhao, The Hong Kong University of Science & Technology, Hong Kong
Editorial office
Neil Scriven, Executive Editor
Sarah Holmes, Deputy Editor
Lily Newton, Development Editor
Claire Darby, Editorial Production Manager ORCID 0000-0003-3059-6020
Emma Carlisle, Publishing Editor
Hannah Hamilton, Publishing Editor
Ephraim Otumudia, Publishing Editor
Irene Sanchez Molina Santos, Publishing Editor
Michael Spencelayh, Publishing Editor
Callum Woof, Publishing Editor
Lauren Yarrow-Wright, Publishing Editor
Kate Bandoo, Editorial Assistant
Linda Warncke, Publishing Assistant
Sam Keltie, Publisher, Journals, ORCID 0000-0002-9369-8414
Article types
Energy & Environmental Science publishes:
Communications
Full papers
Reviews
Perspectives
Minireviews
Opinions
Analysis articles
Comments
See more information about these article types
Communications
These contain either a complete study or a preliminary report, but in either case must contain original and highly significant work whose interest to the Energy & Environmental Science readership and high novelty warrants rapid publication. Authors should supply with their submission a justification of why the work merits urgent publication as a Communication. Referees will be asked to judge the work on these grounds.
Communications are given high visibility within the journal as they are published at the front of an issue. Communications will not normally exceed the length of four printed journal pages; however, exceptions may be made at the editor's discretion. Full papers based on Communications are encouraged provided that they represent a substantial extension of the original material.
Full papers
Full papers contain original scientific work that has not been published previously. Full papers based on Communications are encouraged provided that they represent a substantial extension of the original material. There are no restrictions on the length of a paper. Authors should include a brief discussion in the Introduction that sets the context for the novel work and gives their motivation for carrying out the study.
Reviews, Perspectives & Minireviews
These are normally commissioned by the editorial board and editorial office, although suggestions from readers for topics and authors of reviews are most welcome and should be directed to the editor.
Reviews, Perspectives and Minireviews must be high quality, authoritative, state-of-the-art accounts of the selected research field. They should be timely and add to the existing literature, rather than duplicate existing articles, and should be of general interest to the journal's wide readership.
All Reviews, Perspectives and Minireviews undergo a rigorous and full peer review procedure, in the same way as regular research papers. Notes on the preparation of these articles are available from the editor, and will be provided to referees.
Review articles report a detailed, balanced and authoritative current account of the selected research field. Review articles normally comprise 10,000 or more words of text, together with supporting figures and tables.
Perspectives present an authoritative state-of-the-art account of a research field. A Perspective may take the form of a personal account of research, or a critical analysis of a topic of current interest. In either form, some new unpublished research may be included. Perspectives normally comprise 5,000 to 10,000 words of text, together with supporting figures and tables.
Minireviews are shorter, more focused accounts of important new fields of research. They are typically up to 3,000 words in length.
Opinions
Opinions are typically up to 2,000 words in length and provide a personal, often speculative, viewpoint or hypothesis on a topic of current interest to the scientific community. They may concern a recent publication in the journal (in which case the author(s) concerned will be given the opportunity to respond) or discuss any current hot topic from the authors point of view; provided that they are not defamatory to the work of others they can be controversial and stimulate counter-opinion. They can include a short biography of the author(s).
Although – by their nature – Opinion articles may be more speculative than traditional papers, for publication in Energy & Environmental Science Opinions must contain rigorous, evidence-backed scientific justification, referenced where possible, and bring significant and valuable insights to the field.
Opinions on set topics may be invited by the editorial office, but unsolicited pieces in response to papers already published are encouraged to promote scientific discussion.
Analysis articles
The purpose of Analysis articles is to quantitatively analyse technologies and technological systems.
Analysis articles provide an in-depth examination of energy and environmental technologies, strategies, policies, and overarching conceptual frameworks that will be of interest to the journal's wide and global readership. They should present new methods and data and fresh insights, and should be written for a scientifically literate audience. They must demonstrate scholarly rigor and tightness of presentation comparable to articles in mainstream science.
An Analysis article should not simply be a repository of data with superficial or speculative commentary. Instead, through an Analysis article a reader of Energy & Environmental Science should learn something new about methods or data, or will be educated about an important new technology or technological strategy, or will see a policy argument in a fresh light.
Authors of potential Analysis articles are encouraged to contact the editorial office, to discuss the scope and suitability of their article. All Analysis submissions will be subject to rigorous peer review in the normal way.
Comments
Comments and Replies are a medium for the discussion and exchange of scientific opinions between authors and readers concerning material published in Energy & Environmental Science.
For publication, a Comment should present an alternative analysis of and/or new insight into the previously published material. Any Reply should further the discussion presented in the original article and the Comment. Comments and Replies that contain any form of personal attack are not suitable for publication.
Comments that are acceptable for publication will be forwarded to the authors of the work being discussed, and these authors will be given the opportunity to submit a Reply. The Comment and Reply will both be subject to rigorous peer review in consultation with the journal’s Editorial Board where appropriate. The Comment and Reply will be published together.
Journal specific guidelines
The following guidelines are journal specific. For general guidance on preparing an article please visit our Prepare your article and Resources for authors pages, the content of which is relevant to all of our journals.
All articles must include a separate paragraph (no more than 200 words) that puts the work into the broader context, highlighting the main advances and their impact on energy and environmental science.
Reporting efficiencies of solar conversion devices
Guideline statement
Authors and referees should note the following guidelines for articles reporting the efficiency of solar conversion devices. Authors should ensure the following information is provided in the main manuscript or supplementary information as appropriate.
A full, conventional error analysis should be carried out and reported. This should consist of both random and systematic/bias analyses of values to support the main claims presented in the article, and information on how the error analysis was carried out.
Efficiencies should be reported to an appropriate number of significant figures, along with a standard deviation. This also includes presenting error bars on graphs.
A sufficient number of samples should be tested, and a sufficient number of trials performed.
The 1 Sun AM 1.5G reference spectrum should be used as standard for testing power conversion efficiency and a justification provided where this is not used.
Full experimental conditions under which the efficiency is measured should be declared. Special attention should be paid to documenting the active area of the device, the calibration protocol and properties of the illumination including spectral irradiance and intensity. This may also include as appropriate, but is not limited to, air temperature, use of a glove box, properties and characteristics of the test cell and standardized cell used for calibration, including dimensions and spatial non-uniformity, and calibration and measurement protocols.
Independent certification of the photovoltaic performance of the device being reported is encouraged when the main claims rely on the absolute efficiency value being reported.
If incident photon-to-current efficiency (IPCE), also referred to as external quantum efficiency (EQE) measurements are performed, the results should be integrated to a resulting short circuit current that can be compared with 1 Sun AM 1.5G power conversion efficiency data. The details of how this calculation is done and any correction factors should be clearly defined.
If hysteresis is observed, details on timescale and stability of the efficiency should be provided.
Reporting electrochemical data and setup of batteries
Authors and referees should note the following guidelines for articles reporting electrochemical data and setup of batteries. Authors should ensure the following information is provided in the main manuscript or supplementary information as appropriate.
The setup used for electrochemical testing (full or half cells, reference electrode [if used], testing temperature, etc.) must be clearly specified in the Experimental Information.
When reporting electrochemical performance data, the authors must clearly state on how many experimental runs these data are based off (one-time measurement? n-time measurement?). The electrochemical performance value calculations must be clearly explained (including information on using charging or discharging values). Thereby, all electrochemical data must be reported to an appropriate number of significant figures, along with standard deviation and error bars on graphs.
When reporting electrode performance values, the thickness of the electrode and the mass percentage of all electrode components (active material, additive, binder, etc.), the total mass of the electrode, and the geometric area of the electrode must be provided.
When reporting device-level performance values, the mass percentage of all battery components (active material, additive, binder, casing, current collector, electrolyte, separator, etc.), the total mass of the battery, and the geometric area of the electrode must be reported.
The mass percent and theoretical capacity of the active material should be provided if the theoretical capacity of the studied material is known. The theoretical capacity should be used to calculate C-rate. Alternatively, rigorous use of A g-1 is recommended.
Pre-cycling and/or first cycle data should be reported.
Calculations of battery capacity must report the capacity obtained (in mAh g-1; if appropriate, volumetric values can be added in the unit of mAh cm-3) with the cycling rate and at what cycle number this capacity was obtained clearly stated. Average capacities for ≥3 cells with standard deviation are preferred.
Open access publishing options
Energy & Environmental Science is a hybrid (transformative) journal and gives authors the choice of publishing their research either via the traditional subscription-based model or instead by choosing our gold open access option. Find out more about our Transformative Journals. which are Plan S compliant.
Gold open access
For authors who want to publish their article gold open access, Energy & Environmental Science charges an article processing charge (APC) of £2,750 (+ any applicable tax). Our APC is all-inclusive and makes your article freely available online immediately, permanently, and includes your choice of Creative Commons licence (CC BY or CC BY-NC) at no extra cost. It is not a submission charge, so you only pay if your article is accepted for publication.
Learn more about publishing open access.
Read & Publish
If your institution has a Read & Publish agreement in place with the Royal Society of Chemistry, APCs for gold open access publishing in Energy & Environmental Science may already be covered.
Use our journal finder to check if your institution has an open access agreement with us.
Please use your official institutional email address to submit your manuscript and check you are assigned as the corresponding author; this helps us to identify if you are eligible for Read & Publish or other APC discounts.
Traditional subscription model
Authors can also publish in Energy & Environmental Science via the traditional subscription model without needing to pay an APC. Articles published via this route are available to institutions and individuals who subscribe to the journal. Our standard licence allows you to make the accepted manuscript of your article freely available after a 12-month embargo period. This is known as the green route to open access.
Learn more about green open access.
Readership information
The journal appeals to chemical scientists, chemical and process engineers, energy researchers, bio-scientists and environmental scientists from across academia, industry and government.
Subscription information
Energy & Environmental Science is part of RSC Gold and Materials Science subscription packages.
Online only 2024: ISSN 1754-5706, £1,643 / $2,972
Themed Issues
Energy & Environmental Science does not currently accept proposals for themed/special issues in the journal.
*2022 Journal Citation Reports (Clarivate Analytics, 2023)
**The median time from submission to first decision including manuscripts rejected without peer review from the previous calendar year
***The median time from submission to first decision for peer-reviewed manuscripts from the previous calendar year
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NC,JACS,Angew,EES,AM哪个更有优势? - 知乎
NC,JACS,Angew,EES,AM哪个更有优势? - 知乎首页知乎知学堂发现等你来答切换模式登录/注册电影理论NC,JACS,Angew,EES,AM哪个更有优势?师弟生物材料方向手握一篇NC,在材料学院申请国奖。被能源和纳米方向冲击很大,现在选手是4NC,1 JACS,2 Angew,1 EES,1 AM。 名…显示全部 关注者23被浏览362,069关注问题写回答邀请回答好问题 12添加评论分享6 个回答默认排序星海光正 关注我认为JACS分量最重,也最难中。其次是NC,虽然很多人喷它水,但是好歹Nature子刊。然后是AM,EES和Angew怎么说呢,感觉两个都很水,现在Angew和JACS已经不是一个级别的期刊了。发布于 2021-10-12 10:29赞同 1020 条评论分享收藏喜欢收起裴玄四川大学 材料学博士 关注国奖只考察前一年的工作。请问是怎么做到手握4nc的?发布于 2021-10-14 17:52赞同 72 条评论分享收藏喜欢
Energy & Environmental Science Home-The home of agenda-setting research tackling key challenges to ensure energy provision and protect our environment.
Editorial Board Chair: Jenny Nelson
Impact factor: 32.5
Time to first decision (peer reviewed only): 36 days
Energy & Environmental Science Home-The home of agenda-setting research tackling key challenges to ensure energy provision and protect our environment.
Editorial Board Chair: Jenny Nelson
Impact factor: 32.5
Time to first decision (peer reviewed only): 36 days
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The home of agenda-setting research tackling key challenges to ensure energy provision and protect our environment.Editorial Board Chair: Jenny NelsonImpact factor: 32.5Time to first decision (peer reviewed only): 36 days
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EES做制冷仿真的方法和几个实际案例(附代码下载) - 知乎
EES做制冷仿真的方法和几个实际案例(附代码下载) - 知乎切换模式写文章登录/注册EES做制冷仿真的方法和几个实际案例(附代码下载)制冷仿真探索者制冷百家/制冷百家网 微信公众号关于制冷系统的仿真,我们前面的相关文章介绍了很多,可以“拿来主义”,使用一些免费的软件,比如“Coolpack”、“Cooltools”、“ORNL”等,也可以花点使用费采用一些比较好用的商业软件,再就是之前我们介绍的,Excel导入Refprop之后,用Excel来做制冷系统的热力计算和仿真。近期有不少同行咨询,关于用EES来做制冷系统仿真计算的方法,今天我们就大概个大家说下EES做制冷系统计算的方法;首先,这个EES是需要一定基础的,具有一定的编程的基础,但不需要精通,我们看下压缩机的十系数仿真的编写:压缩机的十系数模型,其本质就是根据蒸发温度Te和冷凝温度Tc两个数值,通过十个参数的公式,计算出压缩机的功率、制冷量、流量、电流等参数。所以只要有压缩机的十系数,然后再编写计算公式,就可以仿真出压缩机在不同的温度下各参数,其代码如下:实际的代码并不复杂,就是把计算公式写入代码里面,已知参数赋值,最后得到计算结果,其本质与在Excel中编写公式是一样的。运行之后,得到如下结果:我们看下冷凝器的EES代码编写:这个编写里面用了不少经验数值,简化了冷凝器的设计和计算。运行结果:蒸发器EES代码的编写:运行结果:有了四大件的代码,我们汇总起来,就可以做制冷系统整体的一个仿真了,其计算也是需要花一定时间的:运行之后,结果如下:主要分为四大件以及系统的计算结果和数据:关于制冷系统EES仿真,入门不难,只要写好计算公式就可以的,但是如果要做进一步的仿真分析的话,软件基础差的同行可能有有点难度了。我们看下一个结霜工况的EES仿真程序代码:计算结果也是比较复杂的。好了,关于EES用于制冷仿真,我们就介绍到这里;关于这些代码:以及我们整理的研究文献和论文:感兴趣的同行可以登录制冷百家网下载吧:发布于 2020-11-01 11:43制冷制冷原理赞同 184 条评论分享喜欢收藏申请
黄金指南| 领域第二,仅次于Nature子刊,独家选刊分析! - 知乎
黄金指南| 领域第二,仅次于Nature子刊,独家选刊分析! - 知乎首发于SCI期刊介绍与选择切换模式写文章登录/注册黄金指南| 领域第二,仅次于Nature子刊,独家选刊分析!投必得论文编译已认证账号黄金指南系列,是小编对投稿前期进行选刊分析的一些介绍,尤其适宜于有意向投稿此类期刊,然而对于期刊风格、内容不太了解的读者。今天小编介绍的是Energy &Environmental Science(《能源与环境科学》,以下简称为EES),这是一本能源领域仅次于Nature Energy的顶级期刊,影响因子已经达到38.532!后面会不定期对更多黄金指南系列期刊进行介绍!!! 去年我们已经对EES进行了介绍,经典推荐:你不能错过的顶级期刊,国人友好!这次我们将结合最新释放的JCR数据,以及对一些关键信息进行更新(见文尾番外篇)。更多最新数据还可以从iJournal平台的期刊数据可以搜索网址(https://ijournal.topeditsci.com。1.期刊风格基于投稿的需要,小编仔细分析了几年来EES期刊上文章的类型,主要集中在电催化方向,这可能和近年来OER(析氧反应)、HER(析氢反应)、ORR(氧还原反应)以及单原子催化剂等比较热门有关吧。当然,其他和能源相关的文章也可以投稿,不过接收的可能性略小。2.Figure风格由于综述主要在于综和述两个方面,所以综述文章的figure和常规的期刊没有多大的差异。 因此小编查阅了一些已发表的研究型文章,并进行分析: ①正文图片保持在5张 正文普遍不超过五张图片,即Fig. 1 ~ Fig. 5。有一些文章可能仅有四张图,也有极少文章出现过六张图,因此投稿的时候注意对正文图片控制一下。 ②排列紧凑可以明显发现,这张Fig. 1里面包含了9张figure,一张大图里的内容是非常多的。③内容丰富 在此提到内容丰富绝不仅仅只是因为数量多,而是它涉及了实验、模型计算、以及机理分析于一体,顶刊风范瞬间就体现出来了! ④精致美观在色调调配上,没有那么突兀和不协调,在审美上绝对是给人很舒适的感觉。3.官方对文章各部分的要求① Title这应该是简短的、直截了当的,并且强调你工作的重要性。想想某人可能用来搜索本文的关键词,并保持一般性。 ② Authorship作者应该为作品的构思、设计或实施做出重大贡献。 ③ Abstract总结一下你的发现,他们的重要性-潜在读者将利用这个来决定你的文章的其馀部分是否感兴趣。 ④ Introduction设定场景。为什么你的工作很重要?以前在这方面做过什么?你在这篇文章中将展示什么?⑤ Results anddiscussion用证据支持你的主张,解释复杂的论点,并证明你的工作的影响。 ⑥ Experimentalsection这里应该有足够的细节让一个熟练的研究员来复制你的工作。 ⑦ Conclusion仅包括最重要的结果,它们对该领域的影响,以及相关未来工作的计划。 ⑧ Acknowledgements在这里,您应该包括供资机构,以及可能无法作为作者加入的个人。 ⑨ References包括您在文章中引用的以前已发表的工作。 ⑩ Supplementaryinformation这一部分包括光谱、附加数据和更详细的程序。 最后,小编建议:在选择EES投稿之前,可以先根据自己的正文图考虑一下是否符合期刊的要求,毕竟编辑也不会认真查看每一篇刚receive的文章,这个时候Figure就显得十分重要了!!!番外篇:更新部分数据1.刊文量EES近年来的发文量在230~330之间波动,按照规律似乎呈现出一年高一年低的趋势。然而今年已有245篇次的发文量,预计今年极有可能会打破这个趋势,呈现出上涨的现象,达到400篇的发文高峰!!!当然在发文量增长的背后,综述型文章起到了主要作用,有意向发综述的朋友可以关注一下。国人发文情况:小编分析了近三年里所有文献的地区分布。中国发文量第一,占比29%;美国以28%的占比,稍逊一些,占据第二的位置;随后德国以9%拿到了第三名。机构发文情况:中国科学院以总发文量的10%夺得头筹,占整个中国发文量的35%,成为主力军。同在前十名的中国机构还有清华大学。不难发现,前十名里基本上都是世界级名校,这也表明的这本期刊拿到这么高的影响因子,绝对是实至名归!!!2.影响因子和分区JCR分区情况:在化学综合、能源与燃料、工程化学和环境科学领域均为Q1。目前在中科院分区为材料科学领域一区! EES的最新影响因子:38.532。近年来,这本期刊一直处于平稳上升的阶段,在去年达到了最大涨幅,2021年的影响因子能不能超40分,真的很值得期待!!!3.自引率EES的自引率为2%,远远低于安全线(25%),大家可以放心投稿! 欢迎扫描下方二维码加入iJournal期刊交流群和更多小伙伴聊聊专业领域、投稿以及生活!!!这里是投必得——全专业顶级论文润色专家,有关于论文润色发表的问题都可以和我讨论,我们下一篇文章再见~投必得SCI写作神器大集合!同学们在写论文的时候发现了哪些神仙级网站?参加培训写SCI,7000元值得吗?有哪些好的科研习惯?撰写 SCI 论文时,有什么好用的软件或者技巧吗?我有一篇论文写好了,去哪可以找到合适的期刊呢?sci-hub所有的网址都已经挂掉了,不能用!像我这种每天都要看文献,公司又没有买数据库的该怎么办!?怎样有效率地进行外文文献检索?该如何学习 R 语言?如果您觉得我说的还有点意思,请点赞让我感到您的支持,您的支持是我写作最大的动力~ijournal:高颜值的期刊检索网站,助您快速找到理想目标期刊(weixin小程序也上线了哦)投必得:全专业中英文论文润色编辑助力您的论文快速发表,点击了解业务详情专栏传送门:投必得科研软件安装使用手册;投必得:SCI期刊介绍与选择;投必得,教你写论文;投必得统计分析大讲堂;投必得科研生活解忧杂货店发布于 2021-07-15 20:00SCI期刊学术期刊SCI论文写作和发表赞同 5添加评论分享喜欢收藏申请转载文章被以下专栏收录SCI期刊介绍与选择全专业顶级论文润色,微信topedit2
期刊介绍:中科院一区顶级期刊,影响因子39+,两个月可接受,自引低免版面费! - 知乎
期刊介绍:中科院一区顶级期刊,影响因子39+,两个月可接受,自引低免版面费! - 知乎首发于期刊投稿切换模式写文章登录/注册期刊介绍:中科院一区顶级期刊,影响因子39+,两个月可接受,自引低免版面费!小王爱科研1、期刊介绍Energy & Environmental Science(以下简称EES )旨在发表与能源转换和储存、替代燃料技术和环境科学相关的重要和高质量的研究,解决关键的全球和社会挑战,确保能源供应和保护我们的未来环境。这本期刊创刊于2008年,由Royal Society of Chemistry(英国皇家化学会)出版,特别欢迎(生物)化学和(生物)物理科学和化学工程学科的跨学科工作。其研究的主题领域包括但不限于:● 太阳能转换和光伏● 太阳能燃料和人工光合作用● 燃料电池● 储氢和(生物)制氢● 能源系统材料● 二氧化碳的捕获、储存和归宿,包括来自二氧化碳的化学物质和燃料● 催化各种原料(例如,石油、天然气、煤、生物质和合成气)● 生物燃料和生物炼制● 能源技术对环境的影响● 与能源系统相关的全球大气化学和气候变化● 水能关系● 能源系统和网络● 全球适用的能源政策和技术经济学原则期刊官网:https://www.rsc.org/journals-books-databases/about-journals/energy-environmental-science/投稿网站:https://mc.manuscriptcentral.com/ee2、刊文量EES近年来发文量稳定在每年三四百篇左右,2022年达到368篇,2023年截至目前已发文76篇。其中,综述每年最多115篇。此外,中国的总发文量占比34%,在国家发文量排序中排名第一。排名前十的机构中有三个来自中国,其中中科院独占鳌头。3、影响因子EES2019年影响因子有些许回落,之后持续稳定上升,2021年影响因子达到39.714分!4、分区EES在JCR分区的化学-多学科、能源与燃料、工程-化学、环境科学领域均为Q1,中科院分区为材料科学领域一区TOP。5、自引率EES的最新自引率为4%,这个比例远低于25%,在安全线内。6、审稿周期官网提供了审稿周期信息,平均首次决策(所有决定)时间为13天,首次决策(仅同行评审)时间为46天。新近发表的文章平均2-3个月接受,也有较长的周期,这与返稿的时间有关。7、版面费EES是混合开放获取期刊,作者可以选择开放获取模式,即OA模式,文章处理费(Article Processing Charge)为£2,500,折合人民币21200.8119元。也可以选择传统订阅模式,一般而言在传统订阅模式下是不收取任何费用的,偶尔会收一些超页费或彩图费。作为中科院一区TOP期刊,发文稳定且影响因子持续上升,最新影响因子达到39.714分 ,自引率低不收版面费,审稿时效性较好,有好的相关研究成果不妨一试!关注公众号《跟小王学习DFT》,第一时间获取更多科研干货与资讯。发布于 2023-04-18 11:24・IP 属地广东期刊学术期刊SCI 论文赞同 1添加评论分享喜欢收藏申请转载文章被以下专栏收录期
有没有大佬有AM或EES的投稿经验? - 知乎
有没有大佬有AM或EES的投稿经验? - 知乎首页知乎知学堂发现等你来答切换模式登录/注册科研化学期刊材料科学投稿有没有大佬有AM或EES的投稿经验?本人化学专业的研三学生,研究方向是锂-空气电池,手头有一篇文章想投AM或者EES。 先简单介绍一下自己的个人情况吧,第一篇文章在先后投小NC和JACS…显示全部 关注者7被浏览53,887关注问题写回答邀请回答好问题 2添加评论分享4 个回答默认排序我是我 关注这两个期刊,个人感觉主要看性能,只要性能爆炸高(全靠同行衬托),创新性倒还在其次。有好的结果做出来了,还得到了业内大佬的肯定,说实话研究怎么投稿这些不如让你导师找找有合作关系的大牛挂个名,能大幅提高中的成功率。发布于 2021-08-24 10:14赞同3 条评论分享收藏喜欢收起知乎用户如果你的导师不是业界大佬的话,自然你的文章的创新性和性能都是要上去的。这个创新性当然不是把别人的工作稍微改进一下,或者在别人的基础上做些改进,而是要提出自己的独特的见解。比如,使用了自己发明的方法,对机理有新的认识。最后就是性能,很明显如果比别人的性能提高1倍(当然是发在顶刊上的数据),那么写好你的论文可以试试。如果只是自己理解的创新性够,估计难。发布于 2021-08-23 14:07赞同 41 条评论分享收藏喜欢收起
欧盟出入境系统 - Schengenvisum.info
欧盟出入境系统 - Schengenvisum.info
跳到内容 跳转到页脚申根签证.info什么是申根签证
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ETIAS——欧洲旅行信息和授权系统
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欧盟出入境系统(EES)
为加强欧洲安全,欧盟将在欧盟外部边界使用新的出入境系统 申根区. 该系统称为 EES,代表进入退出系统。
EES 是一个自动化系统,欧盟将使用该系统自动监控第三国(非欧盟/欧洲经济区/瑞士)国民的过境点。 该系统旨在取代护照盖章,并将于 2020 年年中安装在申根区的某些地点,例如机场和海港。 EES 基于欧盟法规 2017/2226。
EES的功能
该系统的任务是收集第三国国民在欧盟外部边界过境的数据,并废除护照盖章。 收集的数据包括旅行者的姓名和出生日期,以及进出欧盟的日期等。 除了这些字母数字数据点外,还计划存储照片和四个指纹等生物识别数据。
越来越多的非欧盟公民进入申根区以及外部边界安全问题的增加促使申根区制定了新的外部边界管理规则。
申根:提高安全性的智能边界(视频)
观看视频了解更多信息:
出入境系统(EES)
新的入境/出境系统 (EES) 登记非欧盟国民入境、出境和拒绝入境的信息,包括来自 签证要求 来自 免签证 旅行者。
该系统将加速和改进边境管制,因为它用存储旅客数据的电子系统取代了护照盖章。 该系统应该可以很容易地识别逾期居留的人或检测身份欺诈。 EES 必须确保遵守在申根地区的授权逗留期限(90 天中的 180 天)。
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制冷系统如何做仿真分析?EES?Matlab?Aspen? - 知乎
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