«旧条目

2017 highly cited Chinese authors (3)

2018年10月29日
通过.

To reveal Chinese authors on the international chemical research in the field of outstanding contribution, the royal chemical society for more than forty reference profile of this journal published papers statistic, to 2015, and 2016 papers published in 2017, cited in the top 1% of the world's number list filtering, sorting out the corresponding author from China scientific research institutes of the author list.

This push for the series of the third album, lists the royal chemical society ", in Analytical, Environmental, Inorganic, Organic, Physical "class journals of the world's top 1% Chinese authors of papers.

论文与作者列表

In no particular order.Will be subject to the English name, Chinese name for your reference.

Analyst

总理的故乡基本的发现、发明和应用程序的分析和生物分析科学新利手机客户端

化学分析和生物分析领域的重大发现,发明及应用

Impact factor:3.864*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
催化科学与技术新利手机客户端

A multidisciplinary journal focusing on all fundamental 新利手机客户端science and technological aspects of catalysis

全面报道催化领域内的基础研究和技术进展

Impact factor:5.365*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
CrystEngComm

The Design and the understanding of solid - state and crystalline materials

Captures crystal engineering research, including the design, synthesis, crystal growth and the performance evaluation of solid materials

Impact factor:3.304*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
道尔顿事务

高质量的国际期刊,无机和有机金属化学的原创性研究新利手机客户端

金属有机化学、生物无机化学,无机材料化学等无机化学各领域的高水平,原创性研究成果

Impact factor:4.099*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
环境科学:纳米新利手机客户端

Nanomaterial applications and interactions with environmental & in systems

Reports of nanomaterials in biological and environmental systems interaction, sustainability and engineering design and application of nanomaterials

Impact factor:6.087*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
Food & Function

连接食物的化学与物理和健新利手机客户端康和营养

Function of food and food related health research, focus on chemistry, physics, biology, the intersection in the study of food

Impact factor:3.289*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
Inorganic 新利手机客户端Chemistry Frontiers

The international, high quality journal for interdisciplinary research between inorganic 新利手机客户端chemistry and related to The subjects

Reported high levels of inorganic chemistry in various fields, cutting-edge research, especially in inorganic chemistry and organic chemistry, metal in catalysis, biological chemistry, nano science, the application of cross sectors such as energy and materials science

Impact factor:5.106*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
芯片上的实验室

Devices and applications at the micro - and nanoscale

The miniaturization device on the micrometer and nanometer scale of development and application of research, focuses on the device in such aspects as physics, engineering, and materials of original and the new applications in the field of biology, chemistry, medicine and so on

Impact factor:5.995*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
天然产品报告(NPR)

高的影响,天然产物研究和相关领域的关键评论

Important in the field of natural products research were reviewed

Impact factor:11.406*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
Organic & Biomolecular 新利手机客户端Chemistry

有机合成、超分子化学、化学生物学等等。新利手机客户端

High impact research papers and reviews in the field of organic chemistry, including total synthesis, synthetic methodology, new progress in the field of physical organic chemistry, new method and application in chemical biology, catalysis, supramolecular chemistry in the fields of organic molecular design and synthesis

Impact factor:3.423*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
有机化学前沿新利手机客户端

国际、高影响期刊的尖端研究有机化学的所有学科新利手机客户端

有机化学各分支的前沿研究成果,包括有机合成,合成方法学,天然产物等研究领域

Impact factor:5.455*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
物理化学化学物理新利手机客户端(PCCP)

High quality research in physical 新利手机客户端chemistry, chemical physics and biophysical chemistry

发表与物理化学,化学物理和生物物理化学等领域相关的前沿科研成果

Impact factor:3.906*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
Polymer 新利手机客户端Chemistry

The home for The most innovative and exciting polymer 新利手机客户端chemistry, with an emphasis on The short and applications of polymers

涵盖合成和生物大分子的全部研究领域,并发表与之相关的新兴领域的研究成果

Impact factor:4.927*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
Soft Matter

物理与化学与生物学的基本软物质研究和评论新利手机客户端。

Soft material behavior of basic research, especially in physics, materials science, biology, chemistry and chemical engineering papers and reviews in the field of multidisciplinary cross

Impact factor:3.709*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
Toxicology Research,

一个多学科基本覆盖高影响研究》杂志上,转化和应用毒理学领域

Play a role on the development of toxicology and the forefront of an internationally influential research results

Impact factor:1.890*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
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2017 highly cited Chinese authors (2)

2018年10月29日
通过.

To reveal Chinese authors on the international chemical research in the field of outstanding contribution, the royal chemical society for more than forty reference profile of this journal published papers statistic, to 2015, and 2016 papers published in 2017, cited in the top 1% of the world's number list filtering, sorting out the corresponding author from China scientific research institutes of the author list.

This push for the series of the second album, 新利手机客户端lists the royal chemical society "Energy, Materials and Nanoscience" journals of the world's top 1% Chinese authors on paper.

论文与作者列表

In no particular order.Will be subject to the English name, Chinese name for your reference.

能源与环境科学新利手机客户端

A journal linking all aspects of the chemical, physical and biotechnological 新利手机客户端sciences relating to energy conversion and storage, the alternative arg, technologies and environmental science

Energy conversion and storage, alternative fuel technologies such as energy and environmental science major, high-impact, pioneering in the field of research

Impact factor:30.067*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
材料化学杂志》上新利手机客户端

高影响应用程序的性能及合成激动人心的新能源材料和可持续性

与能源储存和转化及可持续发展等领域密切相关的各类材料的制造,应用和性质研究,强调化学在这类材料的开发和性能表现中起到的关键作用

Impact factor:9.931*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
《材料化学B新利手机客户端

High impact applications, the properties and short of exciting new materials for biology and medicine

与医疗、生物医药,仿生等领域密切相关的各类材料的制造,应用和性质研究,强调化学在这类材料的开发和性能表现中起到的关键作用

Impact factor:4.776*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
《材料化学C新利手机客户端

高影响应用,令人兴奋的新材料的性能及合成光学、磁性和电子设备。

And display technology, optics, magnetism application, electronic technology and information storage, etc all kinds of material is closely related to the nature of manufacturing, application and research, and emphasizes the chemistry in the development of this kind of material and performance play a key role

Impact factor:5.976*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
Materials Horizons

The new home for rapid reports of exceptional significance on innovative materials

Materials science and chemistry, physics, biology and engineering groundbreaking research in the field of cross

Impact factor:13.183*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
Nanoscale

A high impact, peer reviewed journal publishing experimental and theoretical work across indicates the bread新利手机客户端th of nanoscience and nanotechnology

纳米和纳米技术领域相关的高质量研究成果

Impact factor:7.233*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
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2017 highly cited Chinese authors (1)

2018年10月26日
通过.

为彰显中国作者对国际化学研究领域的突出贡献,英国皇家化学会对旗下四十多本期刊发表论文的引用情况进行统计,将2015年、2016年发表的论文在2017年的被引次数在全球排名前1%的名单进行筛选,整理出了通讯作者来自于中国高校和科研院所的作者名单。

This push for the series of the first album, lists the royal chemical society "comprehensive chemical" journals of the world's top 1% Chinese authors on paper.

论文与作者列表

In no particular order.Will be subject to the English name, Chinese name for your reference.

Chemical Communications,(ChemComm)

Urgent high quality communications from across indicates the新利手机客户端 chemical sciences.

化学科学相关研究领域最新的高水平科研快讯

Impact factor:6.290*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
化学科学新利手机客户端

皇家化学学会的旗舰杂志和出版发现特殊的意义新利手机客户端来自广泛的化学科学。新利手机客户端

英国皇家化学会旗舰期刊,发表化学领域最前沿,最重要,最具挑战性的高影响力研究成果

Impact factor:9.063*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
化学Soc牧师(Chemical Society Reviews)

The home of high impact reviews from across indicates The新利手机客户端 chemical sciences

All high level and high influence in the field of chemical science review papers

Impact factor:40.182*

* 2017 Journal Citation Reports ® (Clarivate Analytics, June 2018)
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Reddit This
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分享在LinkedIn
书签在Technorati
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添加一个评论”

2017年度RSC奖项和奖励现已开放提名

2016年10月24日
通过.

The royal chemical society series award (RSC Prizes & allow) is to reward has made an outstanding contribution in the development of chemical sciences of individual, team or organization.The current set of prizes and awards for a total of more than 80 kinds, chemical science covers all areas.Series awards a prize winner in the royal chemical society has produced nearly 50 Nobel laureates, including Harry Kroto, Fred Sanger, Linus Pauling and three Nobel laureate in chemistry in 2016.

Now 2017The annual prize award in 10月1Open the nomination, the deadline for 2017年1月16日.Anyone can get Prizes from the royal chemical society & allow nomination (that is, to become the nominee), but some reward and award nominee must be a member of the royal chemical society.Past winners from mainland China, including Shanghai institute of organic chemistry, Chinese Academy of Sciences of the force, a researcher at book (2015 RSC Merck Award) and Harbin industrial university professor ma jun (2016 RSC Sustainable Water Award).

Open to awards, including Chinese scholar award details and request, please see below (in general discipline division).Please pass the URL of each award, the use of online nomination system to submit relevant materials:

  1. Nominee's personal information (name, contact number, member of the RSC);

  2. 被提名人的个人信息(名字和联系方式);

  3. The nominee's latest resume;

  4. No more than 4500 words of supporting text (to support the selection requirements);

  5. 一句话成果描述(以此说明被提名获奖的理由)。

新利手机客户端化学生物学接口

Jeremy Knowles Award

The Introduction

杰里米·诺尔斯奖是承认和促进国际米兰和多学科研究的重要性在化学和生命科学之间。新利手机客户端新利手机客户端

Past winners

1。斯克里普斯研究所的杰弗里·凯利博士(2016)

2。Professor Herman Overkleeft, Leiden University (2015).

3所示。Professor Gurdyal Besra, University of Birmingham (2014).

4所示。Professor Ronald T Raines, University of Wisconsin - Madison (2013).

要求

55岁或低于2017年1月31日,每年运行

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/JeremyKnowlesAward/

丽塔和约翰Cornforth奖

The Introduction

丽塔和约翰Cornforth奖使科学家合作研究团队工作与化学和生命科学学科被提升和奖励。新利手机客户端新利手机客户端

Past winners

1。Dublin-Reading DNA财团,雷丁大学,都柏林大学三一学院、都柏林大学(2016)

2。利兹大学教授艾莉森·阿什克罗夫特和希娜雷德福(2015)

3. The Structural Genomics Consortium, the University of Oxford (2014).

4所示。Professor Tom Simpson, FRS, University of Bristol (2013).

要求

没有年龄限制,提名必须为团队,而不是个人,每年运行

网页

 http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/RitaandJohnCornforthAward/

Education

Schools Education Award

The Introduction

学校教育奖项是提交给老师或团队已经演示了一个特殊能力教化学和激发学生在任何大学预科的水平,在长期时间内或通过一个巨大的影响在很短的时间内。新利手机客户端

Past winners

1。住弗兰克先生厨房帮手,洛雷托大学,科勒雷恩(2016)

2。大卫·赖特博士Kendrick学校(2012)

3所示。William Beveridge, Dollar Academy (2010).

4所示。Leila Elliott, NEPIC 新利手机客户端Science Education Unit, UK (2008).

要求

No age restrictions, Run annually

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/SchoolEducation/

环境

The Environment Prize

The Introduction

环境奖是授予有突出贡献的化学科学领域的环境,可持续发展和能源。新利手机客户端

Past winners

1。Professor Roy Harrison, University of Birmingham (2015).

2. Professor Michael Wasielewski, Northwestern University, USA (2013).

3所示。James Clark, the University of York, (2011).

要求

No age restrictions, Run biennially

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/EnvironmentPrize/

Sustainable Energy Award

The Introduction

The Sustainable Energy Award is for The contributions of chemical 新利手机客户端sciences to Sustainable Energy. This includes development or understanding of materials and The processes and The improvement of existing technologies, through The application of The chemical sciences.

Past winners

1。奥马尔Farha教授,西北大学与阿卜杜拉国王大学(2015)

2. The Professor Saiful Islam, University of Bath (2013).

3所示。Edwin Constable, University of Basel (2011).

要求

No age restrictions, Run biennially

网页

 http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/SustainableEnergyAward/

Industry & Technology

材料Industry-Derek伯彻尔奖

The Introduction

行业的材料——德里克·伯彻尔奖奖励个人创造力和卓越的材料化学在工业中的应用。新利手机客户端

Past winners

1。Professor Tobin Marks, Northwestern University (2015).

2. Professor John W Goodby, University of York, (2013).

3所示。Patrick McGrail, University of Sheffield (2009).

要求

Runs biennially

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/MaterialsforIndustryAward/

Inorganic

应用无机化学奖新利手机客户端

The Introduction

The Applied Inorganic 新利手机客户端Chemistry Award is for outstanding contributions to The development of any branch of Inorganic Chemistry which has an application in industry

Past winners

1。易教授,伊利诺伊大学香槟分校(2015)

2. The Professor Andrew Barron, Rice University (2013).

3所示。拉塞尔·莫里斯,圣安德鲁大学(2011)

要求

No age restrictions, Run biennially

网页

 http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/AppliedInorganic新利手机客户端ChemistryAward/

Bioinorganic 新利手机客户端Chemistry Award

The Introduction

The Bioinorganic 新利手机客户端Chemistry Award recognises outstanding research in any aspect of Bioinorganic Chemistry.

Past winners

1。Professor Paul Dyson, Ecole Polytechnique Federale DE Lausanne (2015).

2. The Professor Tom O 'Halloran, Northwestern University (2013).

3所示。James Cowan, Ohio State University (2011).

要求

55岁或2017年1月31日,两年一次地运行

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/Bioinorganic新利手机客户端Chemistry/

Homogeneous Catalysis Award

The Introduction

均相催化奖承认杰出的均相催化研究。

Past winners

1。Professor Pedro Perez, Universidad DE Huelva (2015).

2. Dr Morris Bullock, Pacific Northwest National Laboratory (PNNL), USA (2013).

3所示。乔纳森•威廉姆斯英国巴斯大学(2011)

要求

55岁或2017年1月31日,两年一次地运行

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/HomogeneousCatalysisAward/

无机机制奖

The Introduction

The Inorganic Mechanisms Award recognises studies leading to understanding of reaction Mechanisms in any branch of Inorganic 新利手机客户端chemistry and by any of The methods.

Past winners

1。Professor Peter Ford, University of California, Santa Barbara (2015).

2. The Professor Mike George, University of Nottingham (2013).

3所示。Lawrence Que, University of Minnesota (2011).

要求

没有年龄限制,每两年运行

网页

 http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/InorganicMechanismsAward/

路德维格蒙德奖

The Introduction

The Ludwig Mond Award is for outstanding research in any aspect of inorganic 新利手机客户端chemistry.

Past winners

1。Professor Richard Winpenny, University of Manchester (2016).

2. The Professor Vivian, mot, The University of Hong Kong (2015).

3所示。Professor Gerard Parkin, Columbia University (2014).

要求

55或低于2017年1月31日,每年运行

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/LudwigMondAward/

Materials

德坚涅奖

The Introduction

RSC de坚涅奖是为了突出和特殊材料化学领域的工作。新利手机客户端

Past winners

1。Professor Mercouri Kanatzidis, Northwestern University (2015).

2。教授Susumu北川,京都大学(2013)

3所示。布里斯托尔大学的史蒂夫•曼(2011)

要求

No age restrictions, Run biennially

网页

 http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/deGennesPrize/

Barrer Award

The Introduction

The Barrer Award recognises meritorious recent pure or applied work in The field of porous inorganic materials.

Past winners

1。Luis Gomez-Hortiguela博士,学院Catalisis y Petroleoquimica-CSIC (2014)

2. Geoffrey Ozin, University of Toronto (2011).

3所示。Ben Slater, University College London (2008).

要求

37 the or under on 31 January 2017, the Run triennially

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/BarrerAward/

拜尔比金牌和奖

The Introduction

The Beilby Medal and Prize recognises The work of exceptional practical significance in chemical engineering, applied materi新利手机客户端als science, energy efficiency or a related field.

Past winners

1。Professor Sarbajit Banerjee, Texas A&M University (2016).

2。杜克大学教授本杰明·威利(2015)

3. The Professor Javier Perez - Ramirez, ETH Zurich (2014).

4所示。Professor Xiangfeng Duan, University of California, Los Angeles (2013).

要求

39 or under on 31 January 2017, the Run annually

网页

 http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/Beilby/

John Goodenough B Award

The Introduction

The John Goodenough B Award is to recognise exceptional and sustained contributions to The area of materials 新利手机客户端chemistry.

Past winners

1。Professor William David, ISIS and University of Oxford (2015).

2。谢菲尔德大学教授安东尼•西(2013)

3所示。墨尔本大学安德鲁·霍姆斯(2011)

要求

Runs biennially

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/JohnBGoodenoughAward/

有机

Perkin Prize for Organic 新利手机客户端Chemistry

The Introduction

帕金有机化学奖是颁发给在任何领域的持续创新和成就研究有机化新利手机客户端学。

Past winners

1。Professor Amos Smith, University of Pennsylvania and the Monell Chemical Senses Center (2015).

2. The Professor Varinder Aggarwal, University of Bristol (2013).

3所示。Stephen Davies, University of Oxford (2011).

要求

No age restrictions, Run biennially

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/PerkinPrize/

Merck Award

The Introduction

The, Merck Sharp and Dohme Award (previously The Merck Award) is The for contributions to any area of orga新利手机客户端nic chemistry from a researcher under The age of 45.

Past winners

1。Professor Neil Garg, University of California, Los Angeles (2016).

2。胡舒立教授,上海有机化学研究所(2015)新利手机客户端

3. The Professor Andy Smith, University of st. Andrews (2014).

4所示。教授克里斯蒂娜白色,伊利诺伊大学(2013)

要求

45 years old or under on 31 January 2017, the Run annually

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/MerckAward/

Organic Industrial 新利手机客户端Chemistry Award

The Introduction

The Organic Industrial 新利手机客户端Chemistry Award is for The application of Organic Chemistry in an Industrial context by a person or team.

Past winners

1。Dr Debra Wallace, MSD (2015).

2. Klaus Muller, f. Hoffmann - La Roche AG (2011).

3所示。曼彻斯特大学尼古拉斯•特纳(2009)

要求

没有年龄限制,每两年运行

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/OrganicIndustrial新利手机客户端ChemistryAward/

有机立体化学奖新利手机客户端

The Introduction

The Organic Stereo新利手机客户端chemistry Award is for studies of Stereochemistry related to structure and reactivity or short.

Past winners

1。Professor David O 'Hagan, University of St Andrews (2015).

2。纽约大学教授Peter O ' brien (2013)

3所示。Ben Feringa, University of Groningen (2011).

要求

没有年龄限制,每两年运行

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/OrganicStereo新利手机客户端chemistryAward/

Organometallic 新利手机客户端Chemistry Award

The Introduction

有机金属化学奖是有机化学的任何方面的主新利手机客户端要组和过渡金属。

Past winners

1。Professor Todd Marder, Julius - Maximilians Universitat Wurzburg (2015).

2。美国德州农工大学约翰Gladysz博士(2013)

3所示。伊兰Marek,以色列理工学院(2011)

要求

没有年龄限制,每两年运行

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/Organometallic新利手机客户端ChemistryAward/

Pedler Award

The Introduction

The Pedler Award is for contributions to any area of organic 新利手机客户端chemistry from a researcher under The age of 55.

Past winners

1。Professor Dr Helma Wennemers, ETH Zurich (2016).

2. Professor Michael Krische, University of Texas at Austin (2015).

3. Professor David Leigh, University of Manchester (2014).

4所示。Professor Kevin Burgess, Texas A & M University (2013).

要求

55岁或2017年1月31日,每年运行

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/PedlerAward/

罗伯特·罗宾逊奖

The Introduction

罗伯特·罗宾逊奖是对有机化学的贡献从55岁以上的研究员。新利手机客户端

Past winners

1。Professor Thomas Hoye, University of Minnesota (2016).

2。Chi-Huey黄教授,台湾中央研究院(2015)

3所示。加州大学伯克利分校的罗伯特·g·伯格曼教授(2014)

4所示。Professor John Brown, University of Oxford (2013).

要求

超过55岁,每年运行

网页

 http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/RobertRobinsonAward/

Synthetic Organic 新利手机客户端Chemistry Award

The Introduction

合成有机化学奖承认新的方法或策略使用的发展建新利手机客户端设的有机分子。

过去的
赢家

1。Professor Richmond Sarpong, University of California, Berkeley (2015).

2. The Professor Phil Baran, The Scripps Research Institute (2013).

3所示。Timothy Donohoe, University of Oxfordd (2011).

要求

没有年龄限制,每两年运行

网页

 http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/SyntheticOrganic新利手机客户端ChemistryAward/

Physical

Soft Matter and Biophysical 新利手机客户端Chemistry Award

The Introduction

软物质与生物物理化学奖优秀和创新研究软凝聚态和/或物理化学生物技新利手机客户端术的应用问题。

Past winners

1。撒母耳粗汞华教授,西北大学(2016)

2. The Professor Nico Sommerdijk, Eindhoven University of Technology (2015).

3. Professor Alan Rowan, the University of Nijmegen (2014).

4所示。Professor Michele Vendruscolo, University of Cambridge (2013).

要求

55岁或2017年1月31日,每年运行

网页

http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/SoftMatterBiophysical新利手机客户端ChemistryAward/

Surfaces and Interfaces Award

The Introduction

表面和界面奖是为杰出的化学系统的行为和创新研究表面或接口。

Past winners

1。Professor Neil Champness, University of Nottingham (2016).

2。纽约des膜研究所教授Mihail Barboiu——CNRS (2015)

3. The Professor Bernard Binks, University of Hull (2014).

4所示。Professor Shik Chi (Edman Tsang), University of Oxford (2013).

要求

55岁或2017年1月31日,每年运行

网页

 http://www.rsc.org/新利手机客户端ScienceAndTechnology/Awards/SurfacesInterfacesAward/
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The royal chemical society 2016 annual top ten reviewers periodicals

20 Oct 2016
通过.

Peer Review Week由包含英国皇家化学会在内的共16家学术单位共同发起和主办,旨在表彰杰出评审人在学术界的重大贡献。作为一项全球性的学术活动,同行评审周把个人,单位和机构汇聚一堂,向大家传递一个中心思想——优秀的评审工作对于学术交流具有非凡意义。

September 19-25, 2016 annual global Peer Review Week Week, this year's theme is "Recognition for Review", aimed at Recognition application Review, meeting for periodical publication, and a series of work has made significant contributions to the reviewers.The Peer Review during the Week, the royal chemical names, 43 the top ten who Review journal each journal.Here, we warmly congratulate to them and would like to extend my sincere thanks to their hard work!

In the top ten who review list, there are a total of 93 scientists from China (including Hong Kong, Macao and Taiwan), let's take a look at what are the Chinese scientists figure!

材料与纳米科学

Biomaterials 新利手机客户端Science

  • Yamin Li, China university of science and technology
  • 小君王(王均),中国科学技术大学

材料化学杂志》上新利手机客户端

  • Bao Yu Xia (Xia Baoyu), huazhong university of science and technology
  • Zhao - the Qing Liu (Liu Zhaoqing), guangzhou university
  • Yuxin Zhang (Zhang Yuxin), chongqing university
  • Zhifeng, Liu, tianjin urban construction at the university

《材料化学B新利手机客户端

  • Xian - Zheng Zhang (xianzheng Zhang), wuhan university
  • 枭龙刘(刘晓龙),福建医科大学
  • Xiangyang Shi (Shi Xiangyang), donghua university
  • Xuemei Wang (Wang Xuemei), southeast university

《材料化学C新利手机客户端

  • 羌族赵(赵强),南京邮电大学
  • Ka Leung - Wong (Huang Jialiang), Hong Kong Baptist university
  • Zhiguo Xia (Xia Zhiguo), Beijing university of science and technology
  • Jun Lin (Lin Jun), Chinese Academy of Sciences changchun should has
  • Lei Wang, huazhong university of science and technology
  • Chong-Xin山、中科院长春光机所
  • Zhen Li (jann lee), wuhan university
  • Guogang Li, China university of geosciences

材料化学前沿新利手机客户端

  • Lang Jiang wave (river), chemistry of Chinese Academy of Sciences
  • Zhen Li (jann lee), wuhan university
  • Xiaoyong Lai (Lai Xiaoyong), ningxia university
  • Baojiu Chen (bao-jiu Chen), dalian maritime university
  • Tie Wang (Wang Tie), Chinese Academy of Sciences, California

Materials Horizons

  • 习近平李(李晋平),太原理工大学

Polymer 新利手机客户端Chemistry

  • Fujian Xu (Xu Fujian), Beijing university of chemical industry
  • Xiaoyu Huang (xiao-yu Huang), Chinese Academy of Sciences Shanghai YouJiSuo
  • Feihe Huang (fei-he Huang), zhejiang university
  • 良、赵(赵优良),苏州大学
  • Jingyin元(袁金颖),清华大学
  • Leyong王(王乐勇),南京大学
  • Zhen Li (jann lee), wuhan university

Soft Matter

  • Kaiqiang Liu (Liu Kaiqiang), shaanxi normal university
  • Yilin Wang (Yilin Wang), Chinese Academy of Sciences, California

Nanoscale

  • Yuchao Yang (Yang Yuchao), Peking University
  • Shu - Hong Yu (shu-hong Yu), university of science and technology of China
  • Zhuang Liu (liuzhuang), suzhou university
  • Haibo Zeng (hai-bo Zeng), nanjing university of science and technology
  • Yu - Lun Chueh (JueYuLun), national tsing hua university

Energy, environment and catalytic science

能源与环境科学新利手机客户端

  • Fujian WuGouSuo Zhenhai Wen (WenZhenHai), Chinese Academy of Sciences

绿色化学新利手机客户端

  • Zhijie Wu (Sean), China university of petroleum

催化科学与技术新利手机客户端

  • Wei - Lin Dai (John devlin), fudan university
  • Jiaguo Yu (more than), wuhan university of technology

Organic, biological and pharmaceutical chemistry

Metallomics

  • Chunying Chen (samberg rr), national center for nanoscale science

Molecular BioSystems

  • Tong Wang (Wang Tong), jinan university

MedChemComm

  • Xiaoyun Lu (Lu Xiaoyun), Chinese Academy of Sciences guangzhou institute of biomedicine and health
  • Zhenqqiu Li, jinan university
  • Yong Xu (Mr Hui wing), Chinese Academy of Sciences guangzhou institute of biomedicine and health

Toxicology Research,

  • Dayong Wang (da-yong Wang), southeast university
  • Wen Chen (Chen Wen), sun yat-sen university
  • Zhiyong Tang (zhi-yong Tang), the national center for nanoscience
  • Xinbiao郭(郭新彪),北京大学
  • Dongye李(李东野),徐州医学院
  • Yanmin周(周岩民),南京农业大学

Food & Function

  • Gow - Chin Yen, national chung-hsing university
  • Hao Jing, China agricultural university
  • Zhenyu Chen (chen-yu), the Chinese university of Hong Kong

有机化学前沿新利手机客户端

  • 宇鸿张(张玉红)、浙江大学
  • 杰吴(吴劼),复旦大学
  • 新港张(张新刚),中科院上海有机所
  • Zhang - jie Shi (zhangjie Shi), Peking University
  • Jin-Heng李(李金恒),湖南大学
  • Sanzhong Luo (3), Chinese Academy of Sciences, California
  • Yong - Min Liang (Liang), lanzhou university
  • Xingwei Li (Li xingwen), Chinese Academy of Sciences dalian compound

Inorganic, analysis and physical chemistry

道尔顿事务

  • Xian - He Bu (and), nankai university

Inorganic 新利手机客户端Chemistry Frontiers

  • Ming - Liang Tong (ming-liang Tong), sun yat-sen university
  • Junfeng Xie (David Xie), university of science and technology of China
  • Jie Zeng (Zeng Jie), university of science and technology of China

CrystEngComm

  • Huiging风扇(樊慧庆),西北工业大学
  • 古奇美燕(闫东鹏),北京师范大学

Analyst

  • Chaoyong James Yang (Yang Chaoyong), xiamen university
  • Shu - sheng Zhang (shu-sheng Zhang), Qingdao university of science and technology/linyi university
  • Lingxin Chen中科院烟台海岸带研究所

Analytical Methods

  • Lingxin Chen中科院烟台海岸带研究所
  • Dingbin Liu (Liu Dingbin), nankai university
  • Xiaoxiao He (xiao-xiao He), hunan university
  • Wide Xuegang Shao (Shao Xue), nankai university

原子光谱法分析杂志》(JAAS)

  • 蓝翔的太阳(孙兰香),中科院沈阳自动化研究所
  • 王(王哲哲),清华大学

Synthetic chemistry and applied chemistry

化学通讯(ChemComm)

  • Cheng Wang (Wang Cheng), xiamen university
  • 蒂耶鲁张(张铁锐),中科院理化所
  • Guocan Yu, zhejiang university
  • Xiangbing Qi (JiXiangBing), Beijing institute of life sciences
  • Youjun Yang (Yang, an army), east China university of science and technology

化学科学新利手机客户端

  • Chunhai Fan (say Chunhai Fan), Shanghai institute of applied physics, Chinese Academy of Sciences

Chemical Society Reviews (ChemSocRev)

  • Chunyi智,香港城市大学
  • Jie-Peng张(张杰鹏),中山大学

The New Journal新利手机客户端 of Chemistry (NJC)

  • Jiaguo Yu (more than), wuhan university of technology
  • Qiongyou Wu, central China normal university
  • 夏,重庆大学
  • Feihe Huang (fei-he Huang), zhejiang university

Molecular Systems Design & Engineering

  • Shen - Long Tsai, national Taiwan university of science and technology

Reaction 新利手机客户端Chemistry and Engineering

  • 清洁通用电气、中科院大连化物所
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会士访谈|包信和院士:我国人才培养和引进应更好的考虑国家需求

09年9月2016年
通过.

Package and academician

Physical chemist, 2000-2007, ren, director of the dalian institute of chemical physics, Chinese Academy of Sciences;2009-2015, shenyang branch, Chinese Academy of Sciences dean;Since 2015, executive vice President of fudan university.

In 2009 was elected member of Chinese Academy of Sciences, was elected in 2010 developing countries academy of sciences.Package and researcher mainly engaged in the surface chemical and catalytic basic and applied research.His research team in basic theory research of nanometer catalytic efficient conversion of methane, high value chemicals, via syngas direct coal low carbon olefins was important progress in related research.The related results are published in新利手机客户端The magazine.

The recent gains honor

  • Outstanding achievement award of science and technology, Chinese Academy of Sciences, 2015
  • 2015年度周光召基金会基础科学奖
  • 2016 international gas conversion outstanding achievement award
  • The fifth Chinese chemical society - the China petroleum and chemical chemical contribution award (2016) co., LTD.

写在前面的话

从2011年英国皇家化学会“第一届国际清洁能源科学会议”主席到2016年首届“英国皇家化学会会士论坛”的大会报告人,在这五年的时间,包信和院士的身份已从中科院沈阳分院的院长转变为复旦大学常务副校长,但他对从事科学研究的兴趣和在大连化物所作为研究者的身份及其从事研究的力度一直没有变化。通过五年的合作与接触,我们深知包老师是个大忙的人,也能深切地感知到他做事有条不紊为人温文尔雅的性格特点。很荣幸在会士论坛召开之际,我们与他进行了深入的交流,倾听他对我国科研发展,人才培养等问题的看法。

On the first BBS "and" the royal chemical society, member of package and do the topic
"Understanding the Nano Effects in Catalysis" wonderful conference report

包信和院士访谈

Interviewer:Hong-mei pengPh.D. (Shanghai office) the royal chemical society

The main research direction

  • Teacher, may I have your team engaged in the research of what respect?The current progress?

    We do the research is fossil energy conversion, such as methane, natural gas, coal conversion and utilization.Is doing good job mainly includes two aspects: one is the step of methane into useful chemicals, namely the realization of methane producing low carbon olefin directly under anaerobic conditions.Because methane is the minimum required by the nature, the most stable organic molecules, a carbon four hydrogen, if can be a hydrogen activation, so the other three hydrogen is more easily activated, can be more effective.For a long time, the choice of methane activation and directional transformation is a difficult problem in the field of catalytic science.From the chemical point of view, the more than one hundred years, everyone is to realize efficient direct conversion of methane.After nearly 10 years of exploration, we developed the silicon lattice confined single-center iron catalyst, has realized the efficient conversion of methane in anaerobic conditions step.This regard, we are now in the cooperation with enterprises, hope the industrial application direction.Another is the transformation of the coal.Generally speaking, the coal is made first gasification syngas, and then, through the catalyst synthesis gas into hydrocarbons and other chemicals.The fischer-tropsch synthesis process of everybody is familiar with, has a history of more than ninety years.Fischer-tropsch synthesis itself exists many limitations, such as use a lot of water and less selective.In recent years, we use a new method of converting syngas direct to ethylene and other chemicals, the participation of reaction process itself abandoned water and particularly high selectivity, peer assessment is "overturned in more than ninety years of coal chemical industry follow fischer-tropsch synthesis route".

Package and academician team led by creatively adopts a new type of composite catalyst, can be directly to the coal gasification
The syngas (CO and H after purification2的混合气体)转化,高选择性地一步反应获得低碳烯烃。
Published in relevant results新利手机客户端,2016年,351,1065 - 1068

Leading the world in the field

  • Congratulations on your team these achievements.Nearly twenty years, China's overall development level of science and technology have greatly ascend, also had obvious strengthening scientific research as a whole.What do you think in terms of chemistry discipline, and what are our country is leading the world?

    Worldwide, we are still more, and international synchronized research but said what way can lead the development of the world is really hard to say, if have to say, material synthesis, especially the synthesis of nano materials should be a.If I know the energy transformation of the block, in some aspects of the research level and can get the world recognized, such as the fossil energy efficient, photocatalytic transformation and energy materials.But it could also be related to we spend more, but the demand of the United States, Europe and other countries and some inputs are relatively less.

The investment growth

  • 这些年,中国在研发方面的投入一直保持大幅增长,从2003年至2013年间平均每年高达19.5%的增速。伴随投入的增长,其产出也得到了相应的回报。您认为将来还会保持这种增长趋势吗?这样的增速是否是可持续的吗?

    China's scientific research investment scale is not very big, but growth is faster in recent years, the development of science and technology has played a very important role.But for now, the R&D funds as a share of GDP is far from reach 'much starker choices-and graver consequences-in national medium and long-term science and technology development plan outline (2006-2020) to determine the proportion of 2.5%.In the coming years, if the economy is not a big problem, I believe that will still maintain a reasonable growth, future investment proportion will match the our country national economy.

根据经济合作与发展组织(OECD)的预测,中国的研发投入将于2019年超过美国,居世界首位。

Study abroad and introducing talents

  • We know the number of people every year in China to study abroad has been on the rise, and for the chemical discipline, doing a PhD and postdoctoral research abroad has become a big part of people's first choice.What do you think about this phenomenon?For many abroad study to the people, they may choose to stay in abroad, what do you think whether China took effective measures to attract talent introduction they return?

    I think this is a good sign.In terms of my own research students, it is a good talent I generally is not directly leave now, hope they can go out and have a look.Especially basic research, we do need to understand the scientific research of dynamic.By reading the literature about research progress of dynamic is a kind of method, but at the same time can also go to the foreign advanced laboratory best experience, to communicate with them, learn from them.Because of our scientific research would need to get up international exchanges, the United States also through many channels to other European countries to communicate, science itself is only more communication can bring about sparks more beautiful.But now I think it is a regret, is a lot of high school or university college graduates choose to go abroad, so that he himself is the foundation of education is no longer a Chinese education, if so I think that will produce very big effect to their own values, of course, now also is hard to evaluate this kind of phenomenon is good or bad.On talent introduction, I think China is doing is quite good.But we still some blind think in attracting talent, mainly based on number of published articles and articles class as evaluation standard, not according to the actual demand for talent in our country for introducing talents.

Higher education

  • In the world famous universities rankings, China's tsinghua university and Peking University and fudan university seems to not rely on top, even in Asia, Tokyo university, national university of Singapore are far ahead of us.As executive vice President of fudan university, you think China's top universities have gap with world famous institution of higher learning?In terms of those should be improved and improve?

    我觉得排在前面的世界名校,一定有他自身的优势和值得我们借鉴的地方。我在复旦大学目前是负责教学,我感觉我们的教学方法和内容相对来说还是比较陈旧,并没有真正考虑面对的学生群体素质和思维方式的变化,需要在这些方面进行改革。我们很多教师可能由于科研压力比较大,对于教学本身的积极性也不是很高。在如何对待教学的问题上,我觉得我们还有很多改进的空间,这对于提升我们高校的整体实力是至关重要的。

Since July 2015, member of package and began to serve as executive vice President of fudan university.In April 2016,
包信和院士在复旦大学化学系,高分子科学系,材料科学系,环境科学与工程系
联合召开的学科发展战略研讨会作动员致辞。

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Member of jesuits interview | ben-zhong tang: "coincidence" will bring great discovery

08 Sep 2016
通过.

Member of ben-zhong tang

Polymer chemist, Hong Kong university of science and technology of chemical and biomedical engineering department chief professor.South China university of science and polymer system, graduating in 1982 with a bachelor's degree in engineering.In 1985 and 1988 respectively master, doctor degree at the university of Kyoto, Japan.

His postdoctoral research at the university of Toronto, NEOS Japanese company as a senior research fellow at the central research institute.Since 1994 of the Hong Kong university of science and technology, associate professor, assistant professor, professor, professor.In 2009 was elected academician of Chinese Academy of Sciences.2012 年起受聘为华南理工大学双聘院士。发表学术论文 800 多篇,他引 28000 多次。主要从事高分子合成方法论的探索、先进功能材料的开发以及聚集诱导发光(AIE)现象的研究,工作曾入选《大英百科全书》。当选汤森路透“2015 年全球最具影响力的科研精英”。目前担任 RSC 期刊材料化学前沿新利手机客户端的主编。

写在前面的话

Bound up with the royal chemical society ben-zhong tang teacher, he served as the royal chemical society series editor and polymer chemistryPolymer 新利手机客户端ChemistryAn associate editor of the journal.Now he acquired a new identity,材料化学前沿新利手机客户端期刊的主编。

We have the pleasure in this year's first "the royal chemical society will then BBS" to listen to his wonderful speech, and carried on the thorough communication with him.We not only learned the tang teacher of our country scientific research development, personnel training and other issues, but also deeply feel the tang teacher humility, easy-going, encourage students and junior personality charm.

Ben-zhong tang academicians in the first "the royal chemical society jesuits BBS" do the conference report

Member of ben-zhong tang interview

Interviewer:Xu GuoxiPh.D. (Shanghai office) the royal chemical society

The discovery of an AIE

  • We know that you are gathering induced luminescence (an AIE) found that limited and intramolecular motion mechanism of the effect of the participant, you can and we tell the story?

    Before an AIE was found, people have long believed "together" as quenching theory, namely the light-emitting molecule under the state of aggregation ability weaken or even disappear completely.Has always been "together" as quenching theory lived like a spell box everyone's thoughts, many scholars are trying to find out the ways to isolate light-emitting molecule are constantly hit a wall.We found an AIE phenomenon quite by accident.May I have other students also found that the phenomenon, but they didn't tell me.Until one day, one of my students said observed and we published research articles on the contrary, I first started out in a cold sweat, then hurriedly and he went to the lab to repeat the experiment.After repeated discussions and experimental verification later, we prove that this is a new discovery.Since then, we started in the field of luminescent molecules and the opposite line of research, realize the light-emitting molecular more gathered ability more strong.So, sometimes we need to jump out of the existing frame of thinking, if you observe the phenomenon is different from both the experience, the first response should not be avoided, and should be very excited to go back.This time, must and his mentor and colleague students communication and discussion, don't because temporarily unable to justify and choose to ignore this phenomenon.

Gathered quenching "and" aggregation induced luminescence "diagram (化学。Soc。牧师。,2011年, 40, 5361-5388)

AIE的应用前景

  • What do you think an AIE effect what application prospect in the field of materials science?

    The discovery of an AIE is very useful.For example, an AIE device can be used as a new generation of lighting material, can be applied in the field of environmental monitoring, can also be used as a biosensor for biological molecular recognition and detection.The material in the hands of materials scientists around the world by "play" the variety, involving the photoelectric, biological, medical, and many other fields.

Cultivation of talents

  • We know that for young scholars of tang teacher training a group of young, do you have any comments to recruit and train graduate students to share with us?

    从前我对招收研究生的要求其实比较单一,比如要求学生具有相关领域的背景,比如从事高分子合成所需的合成专业背景。随着科研工作和指导学生方面经验的积累和感悟的加深,我发现专业背景并不是最重要的,更不是决定性的。我现在招收研究生,更看重的是综合素质,特别是学生对科研工作的热情和投入。

Ben-zhong tang academician also served as joint lab director - Hong Kong university of science and technology of south China university of technology
And south China university of technology, "national key laboratory of luminescent materials and devices" academic committee
主任,经常往返于内地和香港。

Scientific research of the original

  • 尽管我国的科研整体水平这些年有了很大的提升,但有一种观点是我国的整体科研水平还缺乏原创性,您对此怎么看?

    China is growing so fast, the number of research papers from China already has the world's largest number of highly influential papers, after the United States.Number is, of course, don't tell the original strong;In fact the top journals, is mostly about the west or the results of developed countries.But from another level, we also now should not be overly demanding to the problem of shortage of originality.Research and development of the western developed countries has a long history, and China also is in recent decades to develop.To obtain very original scientific research achievements, is indeed needs a process, not overnight.Believe that as China's scientific research career continues to develop, our country will be more and more to the original achievements.

"Faraday academic seminar - gathered induced glow", November 18 to 20, south China university of technology, member of ben-zhong tang served as chairman of the meeting

Scientific research into

  • 这些年,中国在研发方面的投入一直保持大幅增长。您对此怎么看?

    Countries are now so big to the support of scientific research, scientific research funds, is very lucky for Chinese scientists.Relatively speaking, the western countries funding growth is very weak.At present, in most western countries, a young researchers to after or post-doctoral find teaching in institutions of higher learning or academy institute, has been very not easy.One thousand projects in China, our youth, for young scholars of nascent, both treatment and the support of scientific research funds, are very favorable.Country attaches great importance to and support of the development of China's scientific research is of great significance.

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青年学者专访|杨欣教授:研究不只是为了发表文章

02 Sep 2016
通过.
The The original article (in English) can be found here://www.xcmww.com/ew/2016/08/11/emerging-investigator-seriesxin-yang/


Environmental science and engineering college of zhongshan university, professor Yang was the royal chemical society journalsEnvironmental 新利手机客户端Science: Water Research & Technology(ESWRT) has been Emerging for the absence, and accepted the interview ESWRT project.

  • How has your research evolved from your first to your most recent article?
    From your first paper to a recent paper, any change in your research direction?

    My first research article was on disinfection byproducts formation during chlorination during My MPhi study at the HKUST. My current paper is braking on disinfection byproducts, but the from chlorine dioxide disinfection. Over the years, My research has had focused on disinfection and the byproducts formation with expansion toward emerging contaminants, to as pharmaceuticals and personal care products and persistent organic pollutants. My research has always aimed at drinking water safety.

    我的第一篇研究论文是在香港科技大学进行硕士学习的时候完成的,文章的主要内容是水处理中的氯气消毒所生成的副产物。我现在论文同样是关于消毒副产物的,不过是基于二氧化氯消毒进行的相关工作。这些年来,我的主要研究方向就是消毒及其副产物形成后可能造成的污染,比如说使用药物,个人护理产品以及持久性有机污染物造成的污染。我的研究一直都围绕饮水安全。

  • What aspect of your work are you most excited about the at the moment?
    Work is one of the most exciting moment in where?

    The most exciting thing is to bridge The knowledge or The results from The laboratory work with real application. As my research has had been focusing on drinking water treatment, we have good connections with water companies serving drinking water. It is great to apply what have learned from The laboratory work to guide The real application in water treatment. This isNot easy, but we are trying.

    其中最令人振奋的事,就是可以将辛苦工作后得到的结果与现实应用相结合,因为我的研究主要是饮用水处理,我们与饮用水相关的企业有着密切的联系。没有比将实验室中所做的科研工作运用到实际的水处理当中更让人开心的事情了。实现这点并不容易,不过我们一直在努力。

  • 什么是二氧化氯的理想比率:氯水处理吗?
    Best ratio of chlorine dioxide and chlorine in water treatment is how much?

    从测试中,我们发现一些二氧化氯溶液中氯的存在可以有效地控制消毒副产物的某些群体。很难给出一个理想的比例作为水的品质有所不同。同时,估值的消毒副产物的形成只是混合解决方案的一个方面,其他方面如失活能力也可以考虑进一步的研究。

    Through the experiment, we found that chlorine dioxide solution containing a certain amount of chlorine disinfection by-products for controlling the water of certain, it is very effective.But because water quality difference, says it is difficult to determine the ratio of an ideal.At the same time, to evaluate the disinfection by-products formation of mixture is one aspect, other aspects such as inactivated ability should also be included in the category of further research.

  • What do you find most challenging about your research?
    The biggest challenge you encountered in the research is what?

    I am working on pollutants or products with trace concentrations and the instruments to the as GC - MS/MS and LC/MS/MS are, 2. As the exploration of the reaction pathway is, one major objective, the mass spectral analysis from tons of peaks obtained from MS is very challenging.

    In the work I need to deal with trace amounts of pollutants or product, also often want to use GC - MS/MS and LC/MS/MS and other instruments.To explore the reaction path is our focus, and analyzed from tens of thousands of mass spectrum peak is really a challenging thing.

  • How do you spend your spare time?
    How do you spend your spare time?

    I spend my spare time with my family o my 6 - year old son. Outside of that, I enjoy reading, travelling and playing "tennis".

    Spare time I usually choose spent with the family, especially I have a 6 year old son.In addition, I like reading, travel and play tennis.

  • Which profession order you choose if you were not a scientist?
    如果您不是一名科学家,你可能会选择哪种职业?

    我一直享受如此多的大学教师和研究人员。如果我没有进入科学,我想成为一名工程师。新利手机客户端

    我很享受在大学里进行教学和研究的生活,不过如果我没有进入科研领域的话,我可能会成为一名工程师。

  • 你能分享一块相关事业的建议或与其他早期职业科学家智慧?
    Can you to young scientists share some professional advice or comments?

    Work on something that needs to be worked on. The Research is not just paper publication. It will be very exciting and important to solve real - application problems.

    Efforts to solve practical problems need to be solved.Study is not only for published articles.Solve the problem of practical application is more important and exciting.

About the journalESWRT


Environmental 新利手机客户端Science: Water Research & Technology(ESWRT) published since 2015, from the height of the water environment research field workers, and obtains high praise.The journal covers water science and technology related innovative scientific research achievements, especially the water resources, safety, and recycling the outstanding achievements.Committed to promoting the sustainable development of water resources of high quality, new technology and research contents include water resources monitoring and analysis technology, water and wastewater treatment of physical, chemical and biological processes, membrane technology and desalination, advanced purification technology, etc.

关于杨欣教授

中山大学环境科学与工程学院教授。本科毕业于南开大学环境科学系,2002年进入香港科技大学进行深造,2007年获香港科技大学土木和环境工程系博士学位,后于北卡罗莱纳大学师从菲利普·c·歌手教授从事博士后工作。主要研究领域为水污染治理中的副产物形成机理与控制,以及水环境中微量污染物的迁移转化与控制。

欢迎点击查看杨欣教授针对污水治理中消毒副产物的相关研究(全文免费下载)

  • Emerging investigators series: disinfection by - products mixed in chlorine dioxide and chlorine water treatment
    Environ. Sci., Water Res. Technol.,2016年To Advance the Article
    DOI:10.1039 / C6EW00061D
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2015年度英国皇家化学会期刊”前1%高被引中国作者”榜单

May 12, 2016
通过.

To reveal Chinese authors on the international chemical research in the field of outst新利手机客户端anding contribution, this journal will be owned by the royal chemical society more than forty (divided into eight areas: Materials, Organic & Medicinal, General Chemistry, in, Analytical, Energy & Sustainability, Inorganic, Physical) reference profile of published statistics, 2013, 2014, number of articles published in 2015, he led in the areas of the world's top 1% list filtering, sorting out the corresponding author for the first unit is the author of Chinese institutions.

2015 a total of 118 Chinese scholars at the royal chemical society journal "Top 1% highly cited Chinese authors, list as follows (particular order) :

Corresponding author 单位 Journal name Belongs to field
叶立群 南阳师范学院 Environ. Sci., Nano 环境科学新利手机客户端
Xie Haiquan 南阳师范学院 Environ. Sci., Nano 环境科学新利手机客户端
马迪龙 香港浸会大学 化学。Commun。 The Gene新利手机客户端ral Chemistry
余家国 Wuhan university of technology 化学。Commun。 The Gene新利手机客户端ral Chemistry
雷爱文 Wuhan university. 化学。Commun。 The Gene新利手机客户端ral Chemistry
Li Chunju 上海大学 化学。Commun。 The Gene新利手机客户端ral Chemistry
zhao Fudan university 化学。Commun。 The Gene新利手机客户端ral Chemistry
焦宁 Peking University, 化学。Commun。 The Gene新利手机客户端ral Chemistry
陈令新 中国科学院烟台海岸带所 化学。Commun。 The Gene新利手机客户端ral Chemistry
汪顺义 Suzhou university 化学。Commun。 The Gene新利手机客户端ral Chemistry
纪顺俊 Suzhou university 化学。Commun。 The Gene新利手机客户端ral Chemistry
Xiao-ming sun 北京化工大学 化学。Commun。 The Gene新利手机客户端ral Chemistry
侯剑辉 中国科学院化学研究所 化学。Commun。 The Gene新利手机客户端ral Chemistry
王朝晖 中国科学院化学研究所 化学。Commun。 The Gene新利手机客户端ral Chemistry
Zhao Xuebo 中国科学院青岛生物能源与过程研究所 化学。Commun。 The Gene新利手机客户端ral Chemistry
黄飞鹤 Zhejiang university, Chem. Sci. The Gene新利手机客户端ral Chemistry
Zhangjie shi Peking University, Chem. Sci. The Gene新利手机客户端ral Chemistry
Zhang Li Sun yat-sen university 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Cheng-yong su Sun yat-sen university 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Chen Ganwang China university of science and technology, 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Chiu le China university of science and technology, 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Zhang Jiepeng Sun yat-sen university 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
preparation Sun yat-sen university 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Wu Changzheng China university of science and technology, 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Zhang meet quality Zhejiang university of technology 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
19 Shandong university, Chinese Academy of Sciences, Beijing institute of nano energy and system 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Li chunxia Chinese Academy of Sciences, changchun should has 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Lin Jun Chinese Academy of Sciences, changchun should has 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
badad 北京化工大学 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Wing cho Chinese Academy of Sciences, fujian WuGouSuo 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Wen-jie shen Chinese Academy of Sciences, dalian compound 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Shu-hong yu University of science and technology of China 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
裘式纶 Jilin university 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
唐本忠 The Hong Kong university of science and technology 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
张新波 Chinese Academy of Sciences, changchun should has 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
张丽莎 Donghua university 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Willow construction Donghua university 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Xin-chen wang 福州大学 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Li Yanguang Suzhou university 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Yi Tao Fudan university 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
徐艺军 福州大学 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Xie Yi China university of science and technology, 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
LanYaGan 南京师范大学 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Zhong-min su The northeast normal university. 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
沈珍 南京大学 化学。Soc。牧师。 The Gene新利手机客户端ral Chemistry
Book force Shanghai institute of organic chemistry, Chinese academy of science RSC Adv. The Gene新利手机客户端ral Chemistry
姜德立 江苏大学 Dalton Trans. Inorganic
陈敏 江苏大学 Dalton Trans. Inorganic
陈大钦 杭州电子科技大学 Dalton Trans. Inorganic
Feng Wen Sichuan university, Dalton Trans. Inorganic
Yuan Lihua Sichuan university, Dalton Trans. Inorganic
Xu Lin East China normal university. Dalton Trans. Inorganic
Zhang Xinguo Guangxi university;Sun yat-sen university Dalton Trans. Inorganic
Hong-wei song Jilin university Dalton Trans. Inorganic
michille Jilin university Dalton Trans. Inorganic
King.l.why positive psychology is necessary The central university for nationalities Dalton Trans. Inorganic
Ding wan see Beijing normal university. Dalton Trans. Inorganic
Xiang-jun zheng Beijing normal university. Dalton Trans. Inorganic
Cheng Chong Sichuan university, J. Mater. Chem. B Materials
Chang-sheng zhao Sichuan university, J. Mater. Chem. B Materials
De-chun zou Peking University, J. Mater. Chem. C Materials
Gao Xike Shanghai institute of organic chemistry, Chinese academy of science J. Mater. Chem. C Materials
胡爱国 East China university of science and technology J. Mater. Chem. C Materials
Zhou Guijiang Xi 'an jiaotong university J. Mater. Chem. C Materials
王磊 Huazhong university of science and technology J. Mater. Chem. C Materials
Jiang-shan Chen Chinese Academy of Sciences, changchun should has J. Mater. Chem. C Materials
Account for XiaoWei Peking University, Mater. Horiz. Materials
黄柏标 Shandong university, Nanoscale Materials
Bao-quan sun Suzhou university Nanoscale Materials
Mao-sheng cao 北京理工大学 Nanoscale Materials
金海波 北京理工大学 Nanoscale Materials
柏中朝 太原理工大学 Nanoscale Materials
Xiong Shenglin Shandong university, Nanoscale Materials
范壮军 哈尔滨工程大学 Nanoscale Materials
侯贤灯 Sichuan university, Nanoscale Materials
Yan-wen ma Nanjing university of posts and telecommunications Nanoscale Materials
黄维 Nanjing university of posts and telecommunications, nanjing university of technology Nanoscale Materials
Li-ming ding The national center for nanoscience Nanoscale Materials
pan Suzhou university Nanoscale Materials
Hong-wei gu Suzhou university Nanoscale Materials
Tian-xi liu Fudan university Nanoscale Materials
Overwhelmed with 西北工业大学 Nanoscale Materials
Jiang Hui Nanjing university of science and technology Nanoscale Materials
Fred li 江苏大学 Nanoscale Materials
Peng dl 厦门大学 Nanoscale Materials
陈远志 厦门大学 Nanoscale Materials
Zhang Lizhi Central China normal university. Nanoscale Materials
杨志 Shanghai jiaotong university Nanoscale Materials
唐智勇 The national center for nanoscale Nanoscale Materials
Dangerous rock 清华大学 Polym. Chem. Materials
张锡奇 清华大学 Polym. Chem. Materials
Xiao-yong zhang 南昌大学,清华大学 Polym. Chem. Materials
袁金颖 清华大学 Polym. Chem. Materials
Guo-qiang feng Central China normal university. Org。Biomol。化学。 有机和药用
Zhou Jian East China normal university. Org。Biomol。化学。 有机和药用
巴拉罗姆s Takale 大连理工大学 Org。Biomol。化学。 有机和药用
山本manuscript公司 Dalian University of technology/Tohoku University, Japan Org。Biomol。化学。 有机和药用
包明 大连理工大学 Org。Biomol。化学。 有机和药用
Zhang Cai 重庆安全技术职业学院 Org。Biomol。化学。 有机和药用
e-lord 北京化工大学 Org。Biomol。化学。 有机和药用
He Liangnian 南开大学 Catal。科学。抛光工艺。 Physical
Sun Jianmin Harbin Institute of Technology Catal。科学。抛光工艺。 Physical
XiaoWei Wuhan university. Phys. Chem. Chem. Phys. Physical
Wang zhenghua Anhui normal university. Phys. Chem. Chem. Phys. Physical
刘鸣华 中国科学院化学研究所 Soft Matter Physical
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2014 the royal chemical society journal "Top 1% highly cited Chinese scholars" list

2015年2月25日
通过.

With the long-term development of the China science and technology strength, Chinese authors in the number of international journals and citations are also growing.To reveal the Chinese scholars to the international outstanding contribution in the field of scientific research, the royal chemical society will all its annual statistics cited situation of journal articles, in his lead times (article) published for the first two years in the top 1% of the Chinese scholars, and the final list.

2014年度共有224位中国学者位列英国皇家化学会期刊”前1%高被引中国学者”,名单如下:

The journal

-- --

 The article name

文章

 The author

作者
分析师 Recent advances in electrochemical sensing for hydrogen peroxide: a review 赵Yuan-Di
分析师 Electrogenerated chemiluminescence of nanomaterials for bioanalysis 桔多琪Huangxian
分析师 Facile magnetization of metal - organic framework MIL - 101 for magnetic solid - phase extraction of polycyclic aromatic hydrocarbons in environmental water samples Yan Xiu - Ping
分析师 Highly selective and sensitive detection of Cu2 + with lysine enhancing bovine serum albumin modified - carbon dots fluorescent probe Liu Jia Ming
分析师 A turn - on the and reversible fluorescence sensor for Al3 + ion 吴An-Tai
分析师 现代分析技术在代谢组学分析 王Xijun
ANALYTICAL METHODS 萃取的烟碱类杀虫剂杀虫剂环境水样与磁性石墨烯纳米颗粒吸附剂随后与高效液相色谱法测定 王志
CATALYSIS 新利手机客户端SCIENCE & TECHNOLOGY CdS - graphene and CdS - CNT nanocomposites as visible - light photocatalysts for hydrogen evolution and organic dye degradation 王叶;张Qinghong
CATALYSIS 新利手机客户端SCIENCE & TECHNOLOGY 金属硫化物半导体光催化制氢 郭Liejin
CATALYSIS 新利手机客户端SCIENCE & TECHNOLOGY Recent advances in organocatalytic asymmetric Michael reactions Wang wei
CATALYSIS 新利手机客户端SCIENCE & TECHNOLOGY Noble metal - free Ni (OH) (2) - g - C3N4 composite photocatalyst with enhanced visible - light photocatalytic H - 2 - production activity Yu Jiaguo
CATALYSIS 新利手机客户端SCIENCE & TECHNOLOGY A review of controllable short and enhancement of performances of bismuth tungstate visible - light - driven photocatalysts 朱永
CATALYSIS 新利手机客户端SCIENCE & TECHNOLOGY Facile transformation of low cost thiourea into nitrogen - rich graphitic carbon nitride nanocatalyst with high visible light photocatalytic performance Dong Fan;Wu Zhongbiao
CATALYSIS 新利手机客户端SCIENCE & TECHNOLOGY A facile preparation of palladium nanoparticles supported on magnetite/s - graphene and their catalytic application in Suzuki - Miyaura reaction 江小青;太阳沛沛
CATALYSIS 新利手机客户端SCIENCE & TECHNOLOGY Effect of graphitic carbon nitride microstructures on the activity and selectivity of photocatalytic reduction of CO2 under visible light 彭Tianyou
化学通讯 高效的超级电容器的分级多孔NiCo2O4纳米线 Li Chunzhong
化学通讯 High capacity Na - storage and superior cyclability of nanocomposite Sb/C anode for Na - ion batteries Yang Hanxi
化学通讯 Diketopyrrolopyrrole(民进党)的有机光电材料 Tian He
化学通讯 石墨烯量子点:紧急nanolights bioimaging、传感器、催化和光电设备 Zhu Yihua.Li Chunzhong
化学通讯 High capacity, reversible alloying reactions in SnSb/C nanocomposites for Na - ion 'applications Liu Jun
化学通讯 One step short of amino - functionalized fluorescent carbon nanoparticles by hydrothermal carbonization of chitosan Liu Yingliang
化学通讯 Highly luminescent carbon nanodots by microwave - assisted pyrolysis Liu Wenguang
化学通讯 Carbon nanodots as fluorescence the probes for rapid, sensitive and detection of Hg2 + label - free and biothiols in complex matrices Ren Jinsong.Qu Xiaogang
化学通讯 Bifunctional fluorescent carbon nanodots: green short via soy milk and application as the metal - free electrocatalysts for oxygen reduction 董Shaojun
CHEMICAL SOCIETY REVIEWS Gold nanorods and their plasmonic properties Wang Jianfang
CHEMICAL SOCIETY REVIEWS The Metal - air batteries: the from oxygen reducti新利手机客户端on electrochemistry to cathode catalysts Chen Jun
CHEMICAL SOCIETY REVIEWS 有机mechanofluorochromic材料的最新进展 Chi Zhenguo;Xu Jiarui
CHEMICAL SOCIETY REVIEWS 共价有机框架(咖啡):从设计到应用程序 Wang Wei
CHEMICAL SOCIETY REVIEWS 荧光chemodosimeters使用温和的化学事件检测的小生物和环境中阴、阳离子的媒体 Fan Jiangli.Peng Xiaojun
CHEMICAL SOCIETY REVIEWS Combining the transition metal catalysis and organocatalysis - an update 杜Zhenting;邵Zhihui
CHEMICAL SOCIETY REVIEWS 混合材料基于镧系元素有机复合物:审查 张Hongjie
CHEMICAL SOCIETY REVIEWS Nanostructured metal chalcogenides: short, modification and applications in energy conversion and storage devices Yu Shu-Hong
CHEMICAL SOCIETY REVIEWS The Functional block copolymer assemblies responsive to tumor and intracellular microenvironments for site - specific drug delivery and enhanced imaging performance 通用电气Zhishen;刘年期间
CHEMICAL SOCIETY REVIEWS Calixarene - -based supramolecular polymerization in solution Liu Yu,
CHEMICAL SOCIETY REVIEWS The Transition metal - catalyzed Suzuki - Miyaura cross - coupling reactions: a. the remarkable advance from palladium to nickel catalysts Han Fu - She
CHEMICAL SOCIETY REVIEWS Enzyme - responsive polymeric assemblies, nanoparticles and hydrogels Liu Shiyong.Zhang Guoqing
CHEMICAL SOCIETY REVIEWS Enhancing solar cell efficiency: the search for luminescent materials as spectral converters 黄魏
CHEMICAL SOCIETY REVIEWS 从C (sp (2)) - h, C - h (sp(3)):系统研究过渡金属催化氧化碳碳的形成 Shi Zhang Jie
CHEMICAL SOCIETY REVIEWS Arylamine organic dyes for dye - sensitized solar cells Chen Jun
CHEMICAL SOCIETY REVIEWS Small molecule semiconductors for high - efficiency organic photovoltaics 詹美术学
CHEMICAL SOCIETY REVIEWS Lanthanide - doped luminescent nanoprobes: controlled short optical spectroscopy, and bioapplications Chen Xueyuan
CHEMICAL SOCIETY REVIEWS Sub - nanometre sized metal clusters: the from synthetic challenges to the unique property of discoveries Chen Wei
CHEMICAL SOCIETY REVIEWS Photoredox functionalization of C - H bonds adjacent to a nitrogen atom XiaWujiong
CHEMICAL SOCIETY REVIEWS 最新进展在过渡金属催化反应使用分子氧作为氧化剂 Jiao Ning
CHEMICAL SOCIETY REVIEWS C - C, C and C - N - O bond formation via rhodium (III) - catalyzed oxidative C - H activation 安检员李兴维
CHEMICAL SOCIETY REVIEWS Recent advances in metallogels Mot, Vivian Wing Wah
CHEMICAL SOCIETY REVIEWS A review of electrode materials for electrochemical supercapacitors Wang Guoping
CHEMICAL SOCIETY REVIEWS Doped quantum dots for of chemo/biosensing and bioimaging Yan Xiu - Ping
CHEMICAL SOCIETY REVIEWS 有机增敏剂D-pi-A D-A-pi-A:单位内部吸电子效应分子吸收,能量水平和光伏性能 朱未红
CHEMICAL SOCIETY REVIEWS Mesoporous metal - organic framework materials 崔勇
CHEMICAL SOCIETY REVIEWS Stimuli-responsive超分子聚合物材料 Huang Feihe
CHEMICAL SOCIETY REVIEWS The Nano - graphene in biomedicine: theranostic applications 刘壮族
CHEMICAL SOCIETY REVIEWS Functionalized mesoporous silica materials for controlled drug delivery Lin Jun
CHEMICAL SOCIETY REVIEWS Far - red to near infrared analyte - responsive fluorescent the probes -based on organic fluorophore platforms for fluorescence imaging Lin Weiying
CHEMICAL SOCIETY REVIEWS Recent advances in copper - catalyzed dehydrogenative functionalization via a single electron transfer (SET) process Jiao Ning
CHEMICAL SOCIETY REVIEWS 超分子聚合物由皇冠ether-based分子识别 Huang Feihe
CHEMICAL SOCIETY REVIEWS Upconversion nanophosphors for small - animal imaging Li Fuyou
CRYSTENGCOMM Construction of the coordination frameworks -based on 4 - imidazolyl tecton 1, 4 - di (1 h - imidazol - 4 - yl) benzene and varied carboxylic acids Sun Wei - Yin
CRYSTENGCOMM The Syntheses, structures and photoluminescence of five any zinc (II) coordination polymers -based on 5 - methoxyisophthalate and flexible N - donor ancillary ligands Ma Lu - Fang;Wang Li - Ya
CRYSTENGCOMM Fabrication of Ag/TiO2 nanoheterostructures with visible light photocatalytic function via a solvothermal approach Su Chunyan.Shao Changlu
CRYSTENGCOMM Facile short of will Ag3PO4 tetrapods and the {110} called facets - dominated photocatalytic activity 腾飞
CRYSTENGCOMM 一维Bi2MoO6 /二氧化钛分级异质结构,提高光催化活性 Shao Changlu
CRYSTENGCOMM Alkaline earth metal ion doped zinc (II) - terephthalates Yao Yuan - Gen
CRYSTENGCOMM Short of graphene - ZnO nanorod nanocomposites with improved photoactivity and anti - photocorrosion 徐Yi-Jun
CRYSTENGCOMM Facile short of NiCo2O4 nanorod arrays on Cu conductive substrates as superior anode materials for high - rate Li - ion batteries 周伊春;霁少;Liu Jun
CRYSTENGCOMM Hydrophilic Cu2ZnSnS4 nanocrystals for printing flexible, low cost and environmentally friendly solar cells 陈志刚;Hu Junqing
CRYSTENGCOMM Graphite-like C3N4杂化纳米ZnWO4:合成及其增强可见光的光催化作用 He Jun
CRYSTENGCOMM The Self - assembly fabrication of 3 d flower - like ZnO hierarchical nanostructures and their gas sensing properties 张Haijiao;郑娇
CRYSTENGCOMM Crystallization design of MnO2 forward better supercapacitance Xue Dongfeng
DALTON the TRANSACTIONS Porous peanut - like Bi2O3 - BiVO4 composites with heterojunctions: one - step short and their photocatalytic properties 阴Shuang-Feng
DALTON the TRANSACTIONS Large scale electrochemical short of high quality carbon nanodots and their photocatalytic property Kang Zhenhui;Liu Yang,
DALTON the TRANSACTIONS 制造复合光催化剂g-C3N4-ZnO和增强可见光下的光催化活性 邱Ling-Guang
DALTON the TRANSACTIONS Short, characterization and photocatalytic property of AgBr/BiPO4 heterojunction photocatalyst Li Huaming
DALTON the TRANSACTIONS Using alkaline - earth metalions to most cerebral sci-film structural variations of 1, 3, 5 - benzenetricarboxylate coordination polymers Yao Yuan - Gen
DALTON the TRANSACTIONS 预浓缩的U (VI)离子在一些层次化的石墨烯氧化物nanosheets从水的解决方案 Wang Xiangke;Liao Jiali
DALTON the TRANSACTIONS A microporous luminescent europium metal - organic framework for nitro explosive sensing 周辉;魏黄;左金陵
DALTON the TRANSACTIONS 一个灵活的欧盟(III)的有机框架:断开发光传感器检测的铁(III)和苦味酸 周辉;黄魏
DALTON the TRANSACTIONS 小说用Bi2S3 / BiOI光催化剂:可见光的制备表征及光催化性能 Cao Jing
DALTON the TRANSACTIONS The Visible - light - induced WO3 / g - C3N4 composites with enhanced photocatalytic activity 李是的;程Xiaonong
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Flexible graphene - polyaniline composite paper for high - performance of supercapacitor Yu Shu-Hong
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Facile short of Au @ TiO2 core - shell hollow the spheres for dye - sensitized solar cells with remarkably improved efficiency Wang Dan.Tang Zhiyong
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE High efficiency polymer solar cells -based on poly real (3 - hexylthiophene)/indene - C - 70 bisadduct with solvent additive Li Yongfang
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Graphene -based catalysts 施Gaoquan
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 3 d carbon -based nanostructures for advanced supercapacitors Li Chunzhong
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 最新进展在微/纳米结构空心球能源应用程序:从简单到复杂的系统 Wang Dan
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 光电化学电池太阳能氢生产:有前途的光电极的当前状态,方法来改善他们的属性,和前景 Li Zhaosheng
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Oriented hierarchical single crystalline anatase TiO2 nanowire arrays on Ti - foil substrate for efficient flexible dye - sensitized solar cells 旷戴斌
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Lithium storage nitrogen - rich in mesoporous carbon materials 王Zhaoxiang;徐本
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 室温固定钠电池大规模电能储存 胡Yong-Sheng
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Short of functionalized 3 d hierarchical porous carbon for high - performance supercapacitors Hu Xianluo;Huang Yunhui
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Nanostructured ceria - -based materials: short, properties, and applications Sun Chunwen
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Enveloping porphyrins for efficient dye - sensitized solar cells Kuo Ming - Yu;Lin Ching - Yao
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Recent progress in electrochemical hydrogen production with earth - an abundant metal complexes as catalysts 王美;太阳利晟
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 非晶态CoSnO3@C nanoboxes优越的锂的存储功能 小薇
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Carbon dioxide utilization with C -- N bond formation: Carbon dioxide capture and subsequent conversion He Liang - Nian
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 聚丙烯腈/石墨烯复合材料作为一种含硫前体为高效的充电Li-S电池阴极材料 Wang Jiulin;Yang Jun
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 增长的超薄介孔Co3O4 nanosheet阵列对泡沫镍高性能电化学电容器 Zhang Xiaogang
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE A high - performance supercapacitor - 'hybrid energy storage device -based on graphene - enhanced electrode materials with ultrahigh energy density 陈永生
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 设计高效的有机染料对二氧化钛太阳能电池基于cyclopentadithiophene-benzothiadiazole的发色团的核心 Wang Peng
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Carbon capture with ionic liquids: the overview and progress Zhang Suojiang
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 石墨烯量子点:一个新兴材料与能源相关的应用程序 Zhang Zhipan;Qu Liangti
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 灵活的纳米sulphur-carbon纳米管阴极与高速率Li-S电池的性能 (音);惠明程
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Ti - -based come as anode materials for Li - ion batteries Xia Yong - Yao
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 高性能混合太阳能电池敏化organolead卤化物钙钛矿 Zhang Wen - Hua;Qiu Jieshan
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Alpha - MnO2 nanorods grown in situ on graphene as catalysts for Li - O - 2 batteries with excellent electrochemical performance Dong Quanfeng;Zheng Mingsen
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 红色的锐钛矿二氧化钛光催化剂对太阳能能量转换 Cheng Hui Ming
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Two dimensional graphene - SnS2 lightning with superior rate capability for lithium ion storage Zhi Linjie
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE K - 7 [(CoCoII) - Co - III (H2O) W11O39] : a molecular mixed - valence Keggin polyoxometalate catalyst of high stability and efficiency for the visible light - driven water oxidation Ding Yong;Ma Baochun
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE pn Cu2O-loaded二氧化钛纳米管阵列组成的异质结光电极与增强光电化学和photoelectrocatalytic活动 太阳局域网;林郭长江
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE 简单的合成介孔Ni0.3Co2.7O4层次结构的高性能超级电容器 Pang Huan
ENERGY & ENVIRONMENTAL 新利手机客户端SCIENCE Polypyrrole - coated paper for flexible solid - state energy storage 周6月
ENVIRONMENTAL 新利手机客户端SCIENCE - the PROCESSES and IMPACTS Silver nanoparticles in the environment 刘Jingfu
绿色化学新利手机客户端 Catalytic conversion of cellulose to hexitols with mesoporous carbon supported Ni - -based bimetallic catalysts Zhang Tao
绿色化学新利手机客户端 A magnetic nanoparticle supported dual acidic ionic liquid, A quasi - homogeneous catalyst for one - pot short of benzoxanthenes Luo Jun
绿色化学新利手机客户端 Multicomponent reactions in unconventional solvents: the state of the art Gu Yanlong
绿色化学新利手机客户端 Hydrolysis of cellulose to glucose by solid acid catalysts Fu Yao
绿色化学新利手机客户端 壳聚糖功能化离子液体作为催化剂可回收biopolymer-supported二氧化碳的环加成作用 Zhang Suojiang
原子光谱法分析杂志》上 提高原位高频锆石同位素比值分析使用新设计的X漏杓锥和喷气锥结合样本添加氮通过激光烧蚀多个收集器 胡Zhaochu
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A CTAB-assisted合成单层MoS2-graphene复合材料作为锂离子电池的负极材料 Chen Weixiang
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A 石墨烯oxide-chitosan复合水凝胶作为水净化的广谱吸附剂 Bai Hua;Li Lei
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A 化学裁剪的奈米结构石墨烯nanosheets把高性能的锂硫电池硫 Zhang Xiaogang
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Will be C3N4 - CdS composite photocatalysts with organic - inorganic heterojunctions: the in situ short, exceptional activity high stability and photocatalytic mechanism Dong Xiaoping
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A 通过离子液体辅助制备NiFe2O4 nanorod-graphene复合材料一步水热方法和微波吸收性能 Zhao Yun,
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A nitrogen-doped石墨烯水凝胶的合成和表征热液路线与尿素reducing-doping代理 Guo Hui - Lin
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Microporous metal - organic frameworks with the open metal sites as sorbents for selective gas adsorption and fluorescence sensors for metal ions Bu Xian - He
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Surface modification of Li - rich layered Li (Li0.17 Ni0.25 Mn0.58) O - 2 oxide with Li - Mn - PO4 as the cathode for lithium - ion batteries Gao Xue Ping
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A 多孔碳氮含量:合成和应用程序 Shen Wenzhong.Fan Weibin
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A The From coconut shell to porous graphene - like nanosheets for high - power supercapacitors Fu Honggang
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Counter electrodes from double - layered polyaniline nanostructures for dye - sensitized solar cell applications Tang Qunwei
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Highly mesoporous carbon foams synthesized by a facile, cost - effective and template - free Pechini method for the advanced lithium - sulfur batteries Zhang Wenkui
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Dual core - shell structured sulfur cathode composite is synthesized by a one - pot route for lithium sulfur batteries Chen Ji - Tao;Huang Yun Hui
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A NiCo2O4 nanowire arrays supported on Ni terms for high - performance flexible all - solid - state supercapacitors Chen Di;Shen Guozhen
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Flexible free - standing hollow Fe3O4 / graphene hybrid control-insistent pang for lithium - ion batteries 孙静
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A 多孔covalent-organic材料:合成、清洁能源的应用和设计 曹大鹏
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Plasmon - enhanced chemical reactions Wang Jianfang
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Sulfur embedded in the metal organic framework - derived hierarchically porous carbon nanoplates for high performance lithium - Sulfur ' Zhang Xiaogang
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A 石墨烯气体传感器 施Gaoquan
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A 原位合成银纳米结构的磁Fe3O4@C核壳纳米复合材料及其在催化还原反应中的应用 Diao Guowang
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Robust superhydrophobic polyurethane sponge as a highly these reusable oil - absorption material Pan Qinmin
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY A Chain - like NiCo2O4 nanowires with the company exposed reactive planes for high - performance supercapacitors Hu Junqing
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY B Biopolymer functionalized reduced graphene oxide with enhanced biocompatibility via mussel inspired coatings/anchors 太阳Shudong;赵昌盛
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY B 一步nitrogen-doped石墨烯量子点的制备氧化石墨烯氧化物的碎片 Liu Yingliang;Rong Jianhua
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY B One - pot hydrothermal short of highly luminescent nitrogen - doped amphoteric carbon dots for bioimaging from b. mori silk - natural proteins Huang Chengzhi
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY C Two - dimensional semiconductors: recent progress and future perspectives Zeng Haibo
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY C Laminated magnetic graphene with enhanced electromagnetic wave absorption properties He Jianping
JOURNAL OF MATERIALS 新利手机客户端CHEMISTRY C Recent advances in mechanochromic luminescent metal complexes Chi Zhenguo;Xu Jiarui
芯片上的实验室 高纯度和label-free隔离的循环肿瘤细胞(ctc)在微流体平台利用optically-induced-dielectrophoretic (ODEP)的力量 Tseng Ching - Ping
芯片上的实验室 3 d Origami -based multifunction - integrated immunodevice: low - cost and multiplexed sandwich chemiluminescence immunoassay on microfluidic paper - -based analytical device 于京华
芯片上的实验室 Rapid prototyping of three - dimensional microfluidic mixers in glass by femtosecond laser direct writing Xu Zhizhan;Cheng Ya;Luo Yong
芯片上的实验室 For the label with a Double spiral microchannel - free tumor cell separation and enrichment Jiang Xingyu;Sun Jiashu
MOLECULAR BIOSYSTEMS ILoc - Hum: using the accumulation - label scale to predict subcellular locations of human proteins with both single and multiple sites Xiao Xuan
MOLECULAR BIOSYSTEMS ILoc - Animal: a multi - label learning classifier for predicting subcellular localization of Animal proteins Xiao Xuan
MOLECULAR BIOSYSTEMS Upregulated MALAT - 1 contributes to bladder cancer cell migration by inducing epithelial - to - mesenchymal transition Qiu Feng
纳米级 Lithium/sulfur batteries with high specific energy: old challenges and new opportunities Zhang Yuegang
纳米级 Highly conductive NiCo2S4 urchin - like nanostructures for high - rate pseudocapacitors Jiang Jianjun
纳米级 上转换纳米粒子及其复合纳米结构的生物医学成像和癌症治疗 刘壮族
纳米级 Facile short of hierarchical MoS2 microspheres composed of what - layered nanosheets and their lithium storage properties Shujiang Ding
纳米级 石墨烯与peroxidase-like活动oxide-Fe3O4磁性纳米复合材料的比色检测葡萄糖 Cheng Xing guo
纳米级 PH - One - pot green short of optically sensitive carbon dots with upconversion luminescence Wang Erkang
纳米级 绿色和高能量密度不对称超级电容器基于超薄汇总纳米结构和功能介孔碳纳米管电极 Li Chunzhong
纳米级 Dopamine as the coating agent and carbon we for the fabrication of N - doped carbon coated Fe3O4 composites as superior lithium ion anodes Lu the An - Hui
纳米级 Three - dimensional graphene architectures 施Gaoquan
纳米级 A facile route to synthesize multiporous MnCo2O4 and CoMn2O4 spinel quasi - hollow the spheres with improved lithium storage properties Xiong Shenglin
纳米级 Focusing on luminescent graphene quantum dots: current status and future perspectives 朱《;赵健胃
纳米级 The Unique photocatalytic oxidation reactivity and selectivity of TiO2 - graphene nanocomposites Yu Jiaguo
纳米级 Sulfur-nitrogen co-doped分层孔隙结构的三维碳泡沫不含金属的高效electrocatalysts对氧还原反应 黄Shaoming;杨直
纳米级 有缺陷的二氧化钛与氧气空缺:合成、性质及光催化应用 徐Yi-Jun
纳米级 Triple-functional核壳结构上转换发光纳米粒子与光敏剂共价接枝发光磁共振成像、光动力治疗体外 Yan Chun Hua
纳米级 全固态混合太阳能电池基于一种新的有机金属卤化物钙钛矿敏化剂和一维二氧化钛纳米线阵列 Yang Shihe
纳米级 Anatase TiO2 nanocrystals with exposed {001} called facets on graphene sheets via molecular grafting for enhanced photocatalytic activity Zhou Yunchun
纳米级 由功能化Graphene-related纳米材料:优化性能 周甄
纳米级 One - step hydrothermal short of N - doped TiO2 / C nanocomposites with high visible light photocatalytic activity Xu, the An - Wu
纳米级 Surfactant free RGO/Pd nanocomposites as highly active heterogeneous catalysts for hydrolytic dehydrogenation of ammonia borane for chemical hydrogen storage Xi Pinxian;Zeng Zhengzhi
纳米级 小说空心Pt-ZnO纳米复合材料微球与层次结构和增强光催化活性和稳定性 Yu Changlin;Wang Chunying
纳米级 最近的进步基于一维奈米结构的太阳能电池阵列 Fang Zhiyong;Long Yun - Ze
纳米级 3 d MnO2 - graphene composites with large areal capacitance for high - performance asymmetric supercapacitors 陆Xihong;通你们香
纳米级 Iron phthalocyanine and nitrogen - doped graphene composite as a will be non - precious catalyst for oxygen reduction reaction 侯Yanglong
纳米级 Recent progress on the metal core @ semiconductor shell nanocomposites as a promising type of photocatalyst 徐Yi-Jun
纳米级 Recent progress on graphene - -based photocatalysts: current status and future perspectives 徐Yi-Jun
纳米级 Biocompatible polydopamine fluorescent organic nanoparticles: facile preparation and cell imaging Tao Lei.魏日元
纳米级 Surfactant modification of aggregation - induced emission material as biocompatible nanoparticles: Facile preparation and cell imaging Tao Lei.魏日元
纳米级 Porous graphitic carbon nitride synthesized via direct polymerization of urea for efficient sunlight - driven photocatalytic hydrogen production Chen Wei
纳米级 Facile short of MoS2 @ CMK - 3 nanocomposite as an improved anode material for lithium - ion batteries Guo Yu - Guo
纳米级 Recent progress in graphene - -based nanomaterials as advanced electrocatalysts forward oxygen reduction reaction 董Shaojun
ORGANIC & BIOMOLECULAR 新利手机客户端CHEMISTRY Electrophilicity of alpha - oxo gold carbene intermediates: halogen abstractions from halogenated solvents leading to the formation of chloro/bromomethyl ketones Xiang Jiannan
ORGANIC & BIOMOLECULAR 新利手机客户端CHEMISTRY 最近的芳烃重氮盐在有机合成中的应用 Wang Jianbo
ORGANIC & BIOMOLECULAR 新利手机客户端CHEMISTRY Rhodium-catalyzed特定选择的酰胺化吲哚的磺酰叠氮化通过碳氢键活化 Li Yuanchao,Zhou Bing
ORGANIC & BIOMOLECULAR 新利手机客户端CHEMISTRY Synthetic applications of photoredox catalysis with visible light Lei Aiwen
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS 是从汤姆斯纳米复合材料在光催化氢产量和二氧化碳转换 Wang Ye
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS Strain - dependent electronic and magnetic properties of MoS2 monolayer, bilayer, nanoribbons and nanotubes Guo Wanlin
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS 增加可见光吸收与黑色BiOCl光催化 Zan Ling
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS Enhanced photocatalytic performance of direct Z - scheme g - C3N4 - TiO2 photocatalysts for the decomposition of formaldehyde in air Yu Jiaguo
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS 不含金属的活化过氧化氢的g-C3N4可见光照射下的降解有机污染物 王Xinchen
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS The Fill factor in organic solar cells Wang Jizheng
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS Selective photoredox using graphene - -based composite photocatalysts 徐Yi-Jun
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS Improving the photocatalytic performance of graphene - TiO2 nanocomposites via a combined strategy of decreasing the defects of graphene and increasing interfacial contact 徐Yi-Jun
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS 激发态分子内质子转移(ESIPT):从主要photophysics新发色团的开发和应用在荧光分子探针和发光材料 赵建帐;郭家
PHYSICAL 新利手机客户端CHEMISTRY CHEMICAL PHYSICS 石墨碳氮化(g-C3N4) -Pt-TiO2纳米复合材料作为氢的高效光催化剂在可见光照射 彭Tianyou;Zan Ling
高分子化学新利手机客户端 Recent advances in RAFT dispersion polymerization for preparation of block copolymer aggregates Pan Cai - Yuan;Hong Chun - Yan
高分子化学新利手机客户端 Facile fabrication and cell imaging applications of aggregation - induced emission dye - -based fluorescent organic nanoparticles 张小勇;魏日元
高分子化学新利手机客户端 Cross - linkable aggregation induced emission dye -based red fluorescent organic nanoparticles and their cell imaging applications Zhang Xiqi;魏日元
RSC ADVANCES Graphene - inorganic nanocomposites Shen Xiaoping
RSC ADVANCES Nitrogen - doped graphene with high Nitrogen level via a one - step hydrothermal reaction of graphene oxide with urea for superior capacitive energy storage Fu Honggang
软物质 Mechanics of morphological instabilities and surface wrinkling in soft materials: a review Feng Xi Qiao
软物质 极端的润湿性和可调附着力:仿生智能超越自然吗? Zhou Feng
软物质 最近的事态发展在超疏水表面具有独特的结构和功能特性 Sun Hong - Bo
软物质 自组装有机荧光材料与gelation-enhanced排放特征 Tang Ben Zhong
毒理学研究 A comparative study of cellular uptake and cytotoxicity of multi - walled carbon nanotubes, graphene oxide, and nanodiamond Zhang Xiaoyong
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