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杂志影响因子查询

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杂志影响因子查询

怎样查一篇文章的影响因子 一般都是说期刊的影响因子,你要是问一篇文章的叮子,那应该是这篇文章被引用的次数吧? 你可以去google 然后搜索 scholar 进入google 的学术检索,输入你文章名字,结果中就有显示了。 怎么查一个杂志的影响因子 ]学术期刊影响因子查询 前言:当你要写论文要投稿时要知道那些杂志的水平啊,影响因子是某期刊前两年发表的论文在当年的被引用次数除以该期刊在前两年发表的论文总数。影响因子是评估期刊的重要参数之一,但影响因子并不是对论文质量、期刊质量进行有效评价的唯一标准。1,proteomics/sci-if/ 国家生物医学分析中心蛋白质组网 科技期刊影响因子查询,包括2001-2005年的 2, JCR全称为:Journal Citation Reports,中文名称为《期刊引用报告》。它的主办者为美国科技信息研究所(简称为ISI)。JCR的历史可以追溯到1975年。从那年开始,ISI在《科学引文索引》(SCI)年度累积本中,增加了一个新的部分—“期刊引用报告”。它是在《科学引文索引》数据库的基础上,用计算机对期刊文献引用与被引用情况进行系统地归类、整理、分析而得出的结果。它是目前为止国际上一种权威的用于期刊评价的工具书。 JCR版本情况:按照其学科范围而言,分为科技版和社科版两种;按照其载体形式,分为印刷版、光盘版和网络版三种。科技版:收录科学技术领域5000余种期刊的评估信息;社科版:收录社会科学领域1500余种期刊的评估信息。本使用指南主要是针对JCR网络版而言的。 JCR 出版周期情况:JCR 出版周期为一年。JCR中收录的期刊绝大部分为SCI收录的期刊。 JCR可以告知用户的信息包括:每种期刊在当前年被引用的总次数(Total Cites)、每种期刊的影响因子(即该刊前两年发表的文章在当前年的平均被引次数(Impact Factor))、每种期刊当前年发表的文章在当前年的平均被引次数(Immediacy Index)、每种期刊当前年的文章总数(Articles)、每种期刊论文研究课题的延续时间(Cited Half-life)、每种期刊的引用期刊列表(Citing Journal)、每种期刊的被引用期刊列表(Cited Journal)、每种期刊的影响因子在近几年的变化情况(Trends)、每种期刊的来源数据情况(Source Data)等。 如何查找发表后文章和所在期刊的影响因子 不同专业SCI期刊影响因子排名查询方法 进入 ISI Web of knowledge网站,在打开的界面中点击“其他资源”, 选择“Journal Citation Reports”,在新界面中选择JCR Science Edition 所需年份,View a group of journals by(默认Subject category),点击“SUBMIT”,在新界面中 Select one or more categories from list中选择“ENGINEERING, AEROSPACE”(根据专业需要选择,多个专业方向选择按住“Ctrl”键即可),同时选择View Journal Data-sort by (impact factor),点击“SUBMIT”即可出现航空航天类期刊的影响因子排序。 怎样知道一篇文章的影响因子? 影响因子(Impact Factor,IF)是美国ISI(科学信息研究所)的JCR(期刊引证报告)中的一项数据。 即某期刊前两年发表的论文在统计当年的被引用总次数除以该期刊在前两年内发表的论文总数。这是一个国际上通行的期刊评价指标。 例如,某期刊2005年影响因子的计算 本刊2004年的文章在2005年的被引次数: 48 本刊2004年的发文量: 187 本刊2003年的文章在2005年的被引次数: 128 本刊2003年的发文量: 154 本刊2003-2004的文章在2005年的被引次数总计: 176 本刊2003-2004年的发文量总计: 341 本刊2005年的影响因子: = 176÷341 意义:该指标是相对统计值,可克服大小期刊由于载文量不同所带来的偏差。一般来说,影响因子越大,其学术影响力也越大。 附:IF值计算方法(以1992年为例) A=1992年的全部引文(指定数据库中的记录) B=1992年引用某期刊发表在1990和1991的论文的总次数 C=某期刊1990 和1991 年发表的全部论文的总和 D(期刊1992的影响因子)=B/C 影响因子查询系统 emuch/sciif/ 这个地址也可以 proteomics/sci-if/ 本回答援自 如何查看期刊杂志的影响因子 百度经验 你可以上各大期刊网站搜该刊物,一般都有详细说明影响因子,像知网、万方、维普之类的,如果还有其他问题,可以找中国期刊库的我帮忙。 怎样查看一篇文献的影响因子 影响因子(Impact Factor,IF)是美国ISI(科学信息研究所)的JCR(期刊引证报告)中的一项数据。 即某期刊前两年发表的论文在统计当年的被引用总次数除以该期刊在前两年内发表的论文总数。这是一个国际上通行的期刊评价指标。 例如,某期刊2005年影响因子的计算 本刊2004年的文章在2005年的被引次数: 48 本刊2004年的发文量: 187 本刊2003年的文章在2005年的被引次数: 128 本刊2003年的发文量: 154 本刊2003-2004的文章在2005年的被引次数总计: 176 本刊2003-2004年的发文量总计: 341 本刊2005年的影响因子: = 176÷341 意义:该指标是相对统计值,可克服大小期刊由于载文量不同所带来的偏差。一般来说,影响因子越大,其学术影响力也越大。 附:IF值计算方法(以1992年为例) A=1992年的全部引文(指定数据库中的记录) B=1992年引用某期刊发表在1990和1991的论文的总次数 C=某期刊1990 和1991 年发表的全部论文的总和 D(期刊1992的影响因子)=B/C 影响因子查询系统 emuch/sciif/ 这个地址也可以 proteomics/sci-if/ 本回答援自 用知网怎么查看sci文献影响因子 每年ISI都会对收录的期刊里的文章引用次数进行计算,引用次数/刊登的文章数 就是该期刊的影响因子,如果影响因子越大,说明该刊刊登的成果被很多研究人员使用,促进该领域的发展繁荣,期刊也就越好,越权威。ISI每年都会计算颁布出最新的影响因子列表并公布的,称为Cited Report。 求解怎么查看期刊的影响因子 最后还是自己硬著头皮找到了。 鉴于很多人问到这个问题 1。首先你的期刊必须被sci 引用 2。接着在图书馆主页下面选择电子资源->数据库->ISI Web of Science 3。顺着链接进入ISI Web of Science 的网站 3。在ISI Web of Science 的主页的最上方有一个下拉菜单 4。在下拉菜单中选择Journal Citation Reports,然后点击go 5。进入下一个页面,选择Search for a Specific Journal,点击Submit 6。进入另外一个页面,左边的下拉菜单框中选择,右边的输入框中输入你的期刊的名字 或 者其他的条件,点击Search 至此,所有的任务都已经完成了!! 文章的SCI影响因子怎么定的、怎么查? 文章是没有影响因子的,只有SCI期刊有影响因子。一般是这么说的,文章发表在影响因子是多少的期刊上。 影响因子(IF)是指期刊近两年来的平均被引率。就是这本期刊前两年发表的论文在评价当年被引用的平均次数。计算公式为:该刊前两年发表的论文在改年被引用次数/该刊前两年发表论文的总数。 查看方式有很多种,介绍两种比较方场的。有网的情况下,进入MedSci期刊智能查询系统,输入期刊名就行;没网的情况,提前下一个SCI期刊表格,这个很多地方有好心人分享的,直接查找就行。 什么是期刊影响因子?如何查询 影响因子(Impact Factor)是一个国际上通行的期刊评价指标,即某期刊前两年发表的论文在统计当年的被引用总次数除以该期刊在前两年内发表的论文总数。该指标是相对统计值,可克服大小期刊由于载文量不同所带来的偏差。一般来说,影响因子越大,其学术影响力也越大。影响因子的查询:1、查询外文期刊影响因子,可使用外文数据库Web of Science中的JCR(Journal of Reports),其中JCR Science Edition 用于查询自然科学类期刊,JCR Social Sciences Edition用于查询人文社会科学类期刊。2、查询中文期刊的影响因子,可使用中国学术期刊(光盘版)电子杂志社和中国科学文献计量评价中心联合推出的《中国学术期刊综合引证报告》(万锦堃主编,科学出版社)。

期刊的影响因子可以在知网、维普、万方、龙源等四个平台中的任一平台上都是可以查到的。

1、查询外文期刊影响因子,可使用外文数据库Web of Science中的JCR,其中JCR Science Edition 用于查询自然科学类期刊,JCR Social Sciences Edition用于查询人文社会科学类期刊。

2、查询中文期刊的影响因子,可使用中国学术期刊(光盘版)电子杂志社和中国科学文献计量评价中心联合推出的《中国学术期刊综合引证报告》(万锦堃主编,科学出版社)。有需要的读者请到图书馆咨询部查询。

影响因子(英文:Impact Factor),简称IF,是汤森路透(Thomson Reuters)出品的期刊引证报告(Journal Citation Reports,JCR)中的一项数据。 即某期刊前两年发表的论文在该报告年份(JCR year)中被引用总次数除以该期刊在这两年内发表的论文总数。这是一个国际上通行的期刊评价指标。

首先打开web of science官网,出现熟悉的画面,如下:

点击右上角Products---Journal Citation Reports

在搜索框中输入你感兴趣的期刊名称,例如:genomics

点击要查询的期刊,弹出页面中描述了该期刊相关信息,例如2020年IF=,五年平均IF=,该期刊2019年IF急剧上升,2020年略降。

影响因子的查询方法如下:

一、通过SCI或SSCI数据库查询期刊的影响因子

1. 在SCI或者SSCI数据库的“出版物名称”字段输入期刊名称,例如查询期刊《Nature》的影响因子,则在SCI或SSCI数据库中选择“出版物名称”字段,在检索框中输入“nature”。

2. 检索结果页面会显示目前数据库收录的发表在该期刊上的论文题目、作者、期刊、出版时间等题录信息,点击任意一篇论文的期刊名称。

3. 在弹出的对话框中,会显示期刊的影响因子等信息。

影响因子(英文:Impact Factor),简称IF,是汤森路透(Thomson Reuters)出品的期刊引证报告(Journal Citation Reports,JCR)中的一项数据。 即某期刊前两年发表的论文在该报告年份(JCR year)中被引用总次数除以该期刊在这两年内发表的论文总数。这是一个国际上通行的期刊评价指标。

影响因子现已成为国际上通用的期刊评价指标,它不仅是一种测度期刊有用性和显示度的指标,而且也是测度期刊的学术水平,乃至论文质量的重要指标。影响因子是一个相对统计量。

2022年杂志影响因子查询

欧洲泌尿科学杂志影响因子。根据查询相关资料显示,EurUrol杂志影响因子为,JCR分区1区,中科院医学大类分区1区。作为欧洲泌尿外科协会的官方期刊,主要发表泌尿外科领域临床科研和临床实践中的研究成果等,包括肿瘤、性功能障碍、不育、结石等。

2022亚洲社会药学杂志的影响因子是。根据相关报导显示今年社会药学杂志公布最新影响因子为。NEJM、TheLancet、JAMA、BMJ,四本综合性医学杂志,是我们统称的四大医学期刊,也是公认的历史最为悠久、顶级的综合性临床期刊。

中国新药杂志影响因子查询

影响因子的查询方法如下:

一、通过SCI或SSCI数据库查询期刊的影响因子

1. 在SCI或者SSCI数据库的“出版物名称”字段输入期刊名称,例如查询期刊《Nature》的影响因子,则在SCI或SSCI数据库中选择“出版物名称”字段,在检索框中输入“nature”。

2. 检索结果页面会显示目前数据库收录的发表在该期刊上的论文题目、作者、期刊、出版时间等题录信息,点击任意一篇论文的期刊名称。

3. 在弹出的对话框中,会显示期刊的影响因子等信息。

影响因子(英文:Impact Factor),简称IF,是汤森路透(Thomson Reuters)出品的期刊引证报告(Journal Citation Reports,JCR)中的一项数据。 即某期刊前两年发表的论文在该报告年份(JCR year)中被引用总次数除以该期刊在这两年内发表的论文总数。这是一个国际上通行的期刊评价指标。

影响因子现已成为国际上通用的期刊评价指标,它不仅是一种测度期刊有用性和显示度的指标,而且也是测度期刊的学术水平,乃至论文质量的重要指标。影响因子是一个相对统计量。

搜索影响因子的步骤如下:

一、通过SCI或SSCI数据库查询期刊的影响因子

1. 在SCI或者SSCI数据库的“出版物名称”字段输入期刊名称,例如查询期刊《Nature》的影响因子,则在SCI或SSCI数据库中选择“出版物名称”字段,在检索框中输入“nature”。

2. 检索结果页面会显示目前数据库收录的发表在该期刊上的论文题目、作者、期刊、出版时间等题录信息,点击任意一篇论文的期刊名称。

3. 在弹出的对话框中,会显示期刊的影响因子等信息。

二、通过JCR数据库查询期刊的影响因子

1、在Web of Science检索平台的正上方可以找到JCR数据库的链接。

2. 在JCR数据库主页提供的检索框中输入期刊的名称,例如查询期刊《Nature》的影响因子,则在检索框中输入“nature”。

需要注意的是,JCR检索框提供检索词扩展的功能,当输入检索词“Nature”时,会出现“Nature”、“Nature Medicne”、“Nature Microbiology”等相关的期刊名称,这时只需要选择需要查询的期刊名称即可。

这个要到科技部情报研究所的网站去下载即可。百度一下“爱思医学信息网”,这个站也有。

matter杂志影响因子

近五年作为通讯作者,共发表了研究论文200余篇,其中被SCI收录180余篇,主要发表在国际著名的Adv. Funct. Mater.、Chem: .、Chem. Commun.、J. Mater. Chem.、 J. Phys. Chem. B、J. Phys. Chem. C、J. Comput. Chem.、Inorg. Chem.、Appl. Catal. B、Nanotechnology、J. Phys.: Condensed Matter等学术期刊上,影响因子在以上的论文有50余篇,其中影响因子在以上8篇。成果被SCI收录期刊正面引用1400余次。出版专著两部,美国科学出版社邀请为纳米科学技术大百科全书撰写了完整的一章。申请发明专利14项。已发表和已录用的主要论文清单如下(以下均为SCI期刊收录论文,*代表通讯联系人)·Pan Qing-Jiang,Guo Yuan-Ru,Li Li,Fu Hong-Gang*,and Zhang Hong-Xing “Structures,Spectroscopic Properties and Redox Potentials of Quaterpyridyl Ru(Ⅱ) Photosensitizer and its Derivatives for Solar Energy Cell: A Density Functional Study” Physical Chemistry Chemical Physics 2011,DOI:.·Gao Xiao-Qin,Pan Qing-Jiang,Li Li,Guo Yuan-Ru,Zhang Hong-Xing,Fu Hong-Gang* “Structures and Spectroscopic Properties of Ruthenium Phenanthroline Solar-Cell Sensitizers: A Computational Study” Chemical Physics Letters,2011,506,146-151.·Zhou W,Sun FF,Pan K,Tian GH,Fu HG*. Well-ordered large-pore mesoporous anatase TiO2 with remarkably high thermal stability and improved crystallinity: Preparation,characterization and photocatalytic performance. Advanced Functional Materials,2011,21,1922-1930..·Jiang Baojiang,Tian CG,Fu Honggang*,et al. In-Situ Growth of TiO2 in Interlayers of Expanded Graphite for the Fabrication of TiO2-Graphene with Enhanced Photocatalytic Activity. Chemistry-A European Journal,2011,Accepted,.· Li Sun,Chungui Tian,Lei Wang,Jinlong Zou,Guang Mu,Honggang Fu*,Magnetically Separable Porous Graphitic Carbon with Large Surface Area as Excellent Adsorbents for Metal Ions and Dye. Journal of Materials Chemistry,2011,2011,21,7232-7239.· Zhao H,Yang J,Wang L,Tian CG,Jiang BJ,Fu HG*. Fabrication of palladium nanoparticles/graphene nanosheets hybrid via sacrifice of copper template and its application in catalytic oxidation of formic acid. Chemical Communications,2011,47,2014-2016.· Yang J,Tian CG,Wang L,Fu HG*. An effective strategy to small-sized and high-dispersed palladium nano particles supported on graphene with excellent performance for formic acid oxidation. Journal of Materials Chemistry,2011,21,3384-3390.· Tian GH,Chen YJ,Zhou W,Ren ZY,Tian CG,Fu HG*. Facile solvothermal synthesis of hierarchical flower-like Bi2MoO6 hollow spheres as high performance visible-light driven photocatalysts. Journal of Materials Chemistry,2011,21,887 – 892.· Hu ZF,Shen PK*,Fu HG*,et al. Oxygen Reduction Electrocatalysis Enhanced by Nanosized Cubic Vanadium Carbide. Electrochemistry Communications,2011,Accepted,ELECOM 3881.· Tian Guohui,Chen Yajie,Zhou Wei,Pan Kai,Huang Xu-ri and Fu Honggang *,3D hierarchical flower-like TiO2 nanostructure: morphology control and its photocatalytic property. CrstEngComm,2011,13,2994.· Dong Youzhen,Pan Kai,Zhou Wei,Pan Qingjiang,Xie Tengfeng,Wang Dejun,Fu Honggang*,Dye-sensitized solar cells based on TiO2-B nanobelt/TiO2 nanoparticle sandwich-type photoelectrodes with controllable nanobelt length. Dalton Transactions,2011,40,3808–3814.· Cai ZC,Tian CG,Wang L,Zhou W,Wang BL,Fu HG*. One-pot synthesis of silver particle aggregation as highly active SERS substrate. Journal of Raman Spectroscopy,2011,1,5-11.· Tian CG,Li W,Fu HG*,et al. Glucose-mediated solution-solid route for easy synthesis of Ag/ZnO particles with superior photocatalytic activity and photostability,Journal of Alloys and Compounds,2011,509,6935-6941.· Tian CG,Li W,Fu HG*,et al. Controllable Fabrication of Various ZnO Micro/nanostructures from a Wire-like Zn-EG-AC Precursor via a Facile Solution-based Route,Materials Research Bulletin,2011,MRB5116.· Zhao H,Fu HG,Tian CG,et shape-controlled synthesis of palladium nanostructures on copper for promising Surface-enhanced Raman scattering,MATERIALS LETTERS,2010,64,2255-2257· Zhao H,Fu HG,Tian CG,et al. Fabrication of silver nanoparticles/single-walled carbon nanotubes composite for surface-enhanced Raman scattering,JOURNAL OF COLLOID AND INTERFACE SCIENCE,2010,351,343-347.· Jiang BJ,Tian CG,Fu HG*,et al. Facile Fabrication of High Quality Graphene from Expandable Graphite: Simultaneous Exfoliation and Reduction. Chemical Communication. 2010,46,4920 - 4922.· Feng SS,Ren ZY,Fu HG*,et al. Synthesis and application of hollow magnetic graphitic carbon microspheres with/without TiO2 nanoparticle layer on the surface. Chemical Communication. 2010,46,6276-6278.· Liu Y,Ren ZY,Fu HG*,et al. Synthesis and applications of graphite carbon sphere with uniformly distributed magnetic Fe3O4 nanoparticles (MGCSs) and MGCS@Ag,MGCS@TiO2. Journal of Material Chemistry 2010,20,4802- 4808.· Wang L,Tian CG,Fu HG*,et al. Mass production of graphene via an in situ self-generating template route and its promoted activity as electrocatalytic support for methanol electroxidization. Journal of Physical Chemistry C 2010,114 (19),8727–8733.· Qu Y,Zhou W,Fu HG*,et al. Hierarchical anatase TiO2 porous nanopillars with high crystallinity and controlled length: An effective candidate for dye-sensitized solar-cells. Physical Chemistry Chemical Physics 2010,12,9205 - 9212.· Wang BL,Tian CG,Fu HG,et al. Chitosan: a green carbon source for the synthesis of graphitic nanocarbon,tungsten carbide and graphitic nanocarbon/tungsten carbide composites. Nanotechnology 21 (2010) 025606 (9pp).· Li YJ,LV RJ,Fu HG*,et al. 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Journal of Photochemistry and Photobiology A: Chemistry 2009,207,306–310.· Tian XQ,Wan LJ,Fu HG*,et al. Facile synthesis of mesoporous ZnAl2O4 thin films through the evaporation-induced self-assembly method. Journal of Alloys and Compounds 2009,488,320–324.· Wang RH,Tian CG,Fu HG*,et al. In situ simultaneous synthesis of WC/graphitic carbon nanocomposite as a highly efficient catalyst support for DMFCw. Chemical Communication 2009,3104-3106.· Pan QJ,Fu HG*,Zhang HX*,et al. Theoretical Studies on Metal−Metal Interaction,Excited States,and Spectroscopic Properties of Binuclear Au−Au,Au−Rh,and Rh−Rh Complexes with Diphosphine Ligands: Buildup of Complexity from Monomers to Dimers. Inorganic Chemistry,2009,48,2844–2854.· Zhou W,Pan K,Fu HG*,et al. Solar-induced Self-assembly of TiO2-β-cyclodextrin-MWCNT Composite Wires. Physical Chemistry Chemical Physics 2009,11,1713-1718.· Kang CH,Jing LQ*,Fu HG*,et al. 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Preparation and Characterization of Stable Biphase TiO2 Photocatalyst with High Crystallinity,Large Surface Area and Enhanced Photoactivity. Journal of Physical Chemistry C 2008,112,3083-3089.· Zhou W,Liu KS,Fu HG*,et al. Multi-modal mesoporous TiO2–ZrO2 composites with high photocatalytic activity and hydrophilicity. Nanotechnology 2008,19,035610(7pp).· Pan QJ,Zhou X,Fu HG*,et al,“Isovalent Gold(I),-(Ⅱ),and -(Ⅲ) and Mixed-Valent Gold(I)/Gold(Ⅲ) Phosphorus Ylide Complexes. Combined ab Initio and Density Functional Study of Electronic Structures and Spectroscopic Properties” Organometallics 2008,27,2474–2482.· Wan LJ,Fu HG*,Shi KY,et al. Facile synthesis of ordered nanocrystalline alumina thin films with tunable mesopore structures. Microporous and Mesoporous Materials 2008,115(3),301-307.· Pan QJ,Zhou X,Fu HG*,et al. A theoretical probe on the ground- and excited-state properties of heterobinuclear Au–Pt complex with phosphine ligands. 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chemmatter的认可度高。因为AdvancedOpticalMaterials的任何一个子刊,基本上就代表了此方向上的最高水平。认可度还是高的。2013年出版文章113篇,引用77次,即时影响因子现在逐渐在以发高比例review来提升其影响因子,并且在acs期刊中一直扮演着jacs回收站的角色,是一个方向比较杂的期刊。

Advance in physics属于物理顶级杂志

iovs杂志影响因子

分别是CA-A,Cancer,Journal,ForClinicians。神刊CA-A,Cancer,Journal,ForClinicians首次突破500分,IF高达。紧随其后的是NEJM,离100仅一步一遥,以位列第二。

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