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currentnanoscience影响因子

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currentnanoscience影响因子

已在国际SCI核心期刊上发表或接受学术论文62篇(影响因子4以上的论文7篇, 影响因子3以上的论文16篇, 影响因子2以上的论文12篇),目前SCI收录57篇,EI检索21篇,被引用累计六百余次): Bo Liao, Tianming Wang, General Combinatorics of RNA Hairpins and Cloverleaves, J C I C S,43 (4),2003,1138- (SCI, EI,影响因子423 ) Chunxin Yuan,Bo Liao, Tianming Wang, New 3D graphical representation of DNA sequences and their numerical characterization, Chemical Physic Letters ,379 ,2003, 412- (SCI,影响因子207) Bo Liao, Tianming Wang, Analysis of similarity of DNA sequences based on 3D graphical representation, Chemical physics letters, 388, 2004,195- (SCI,影响因子207) Bo Liao, Tianming Wang, A 3D Graphical representation of RNA secondary structure, Journal of Bimolecular Structure Dynamics, 21 (6), 2004,827- (SCI,影响因子413) Bo Liao, Tianming Wang, New 2D Graphical representation of DNA sequences, Journal of computational chemistry, 259(11),2004,1364- (SCI、EI,影响因子297) Bo Liao, Tianming Wang, General Combinatorics of RNA Secondary Structure, Mathematical Biosciences,191,2004,69- (SCI, EI,影响因子186) Bo Liao, Tianming Wang, 3D graphical representation of DNA sequences and their numerical characterization, Journal of Molecular Structure: THEOCHEM, 681,2004,209- (SCI,影响因子112) Bo Liao, Tianming Wang, Analysis of similarity of DNA sequences based on non-overlapping triplets of nucleotide bases, Journal of Chemical Information and Computer Science, 44,2004,1666- (SCI, EI,影响因子423) Bo Liao, Tianming Wang, Kequan Ding,On A Six-Dimensional Representation of RNA Secondary Structures, Journal of Bimolecular Structure Dynamics, 22,2004,455- (SCI,影响因子413) Bo Liao, A 2D graphical representation of DNA sequence, Chemical Physic Letters, 401 2005,196- (SCI, EI,影响因子207) Bo Liao, Mingshu Tan, Kequan Ding, A 4D representation of DNA sequences and its application, Chemical Physic Letters, 402,2005,380- (SCI, EI,影响因子207) Bo Liao, Tianming Wang, Kequan Ding, On A Seven-Dimensional Representation of RNA Secondary Structures,Lecture Series on Compute and Computational Science, 1,2004, 310- (SCI) Yusen Zhang,Bo Liao, Kequan Ding, On 2D graphical representation of DNA sequence of non-degeneracy, Chemical Physic Letters, 411,2005,28- (SCI, EI ,影响因子207) Bo Liao, Yusen Zhang, Kequan Ding, Analysis of similarity/dissimilarity of DNA sequences based on a condensed curve representation, Journal of Molecular Structure: THEOCHEM, 717,2005,199- (SCI,影响因子112) Bo Liao, Tianming Wang, Largest common substructure of RNA structure, Internet Journal of Molecular Design, 3,2004,361- Bo Liao, Kequan Ding, Graphical Approach to analyzing DNA sequences, Journal of Computational Chemistry, 26,2005,1519- (SCI,EI,影响因子297) Wen Zhu, Bo Liao, Kequan Ding, A condensed 3D Graphical representation of RNA secondary structures, Journal of Molecular Structure: THEOCHEM, 757,2005,193– (SCI,通信作者,影响因子112) Bo Liao, MingshuTan, Kequan Ding, Application of 2D graphical representation of DNA sequence, Chemical Physic Letters, 414,2005,296– (SCI, EI,影响因子207) Bo Liao, Tianming Wang, Kequan Ding, On a seven-dimensional representation of RNA secondary structures,Molecular Simulation, 31(14),2005 1063- (SCI,影响因子133) Yuhua Yao, Bo Liao, Tianming Wang, A 2D graphical representation of RNA secondary structures and the analysis of similarity/dissimilarity based on it, Journal of Molecular Structure: THEOCHEM, 755,2005,131-(SCI,影响因子112) Bo Liao, Kequan Ding, A 3D graphical representation of DNA sequences and its application, Theoretical Computer Science, 358,2006,56- (SCI,影响因子735) Jiawei Luo, Bo Liao, Renfa Li, Wen Zhu, RNA Secondary Structure 3D Graphical Representation Without Degeneracy, Journal of Mathematical Chemistry, 39 ,2006,629- (SCI,通信作者,影响因子057) Bo Liao, Wen Zhu, Analysis of similarity/dissimilarity of DNA primary sequences based on condensed matrices and information entropies, Current Computer-Aided Drug Design, 2, 2006, 95- Bo Liao, Jiawei Luo, Renfa Li, Wen Zhu, RNA Secondary structure 2D graphical representation without degeneracy, International Journal of Quantum Chemistry, 106 (8), 2006,1749- (SCI,EI,影响因子368) Bo Liao, Yanshu Liu, Renfa Li, Wen Zhu, Coronavirus phylogeny based on triplets of nucleic acids bases, Chemical Physic Letters, 421,2006,313- (SCI,EI,影响因子207) Bo Liao, Xuyu Xiang, Wen Zhu, Coronavirus phylogeny based on 2D graphical representation of DNA sequence, Journal of Computational Chemistry,27(11),2006,1196- (SCI,EI,影响因子297) Weiping Wang,Bo Liao, Tianming Wang, A graphical method to construct phylogenetic tree, International Journal of Quantum Chemistry,106(9),2006,1998-(SCI,EI,通信作者,影响因子368) Bo Liao,Wen Zhu, Yang Liu, 3D graphical representation of DNA sequence without degeneracy and its applications in constructing phylogenic tree, MATCH Communications in Mathematical and in Computer Chemistry,56,2006,209-(SCI,影响因子5) Bo Liao, Xinzhou Shan, Wen Zhu, Renfa Li, Phylogenetic tree construction based on 2D graphical representation, Chemical Physic Letters,422(1-3),2006,282-(SCI,EI ,影响因子207) Bo Liao, Xuyu Xiang, Renfa Li, Wen Zhu, On the similarity of DNA primary sequences based on 5D representation, Journal of Mathematical Chemistry, 42(1),2007, 47-(SCI,影响因子057) Bo Liao, Wen Zhu, Pengcheng Li, On a four-dimensional representation of RNA secondary structures,Journal of Mathematical Chemistry, 42(4),2007, 1015-(SCI,影响因子057) Yusen Zhang, Bo Liao, Kequan Ding, On 3DD-curves of DNA sequences, Molecular Simulation, 32(1),2006, 29–(SCI ,影响因子133) Wen Zhu, Bo Liao, Jiawei Luo, Renfa Li, Numerical Characterization and Similarity Analysis of Neurocan Gene, MATCH Communications in Mathematical and in Computer Chemistry,57(1) 2007,143-(SCI,通信作者,影响因子5)34.Yusen Zhang, Wei Chen,Bo Liao, Xinbo Gong,A Method for Obtaining Integrable Couplings, Communications in Theoretical physics, 45(6),2006, 1000-(SCI,影响因子676) Bo Liao, Jiawei Luo, Renfa Li, Wen Zhu, Novel method for analyzing proteome, International Journal of Quantum Chemistry, 107(6),2007,1295-(SCI,影响因子368)36.Bo Liao, Wen Zhu, Jiawei Luo, Renfa Li, RNA Secondary Structure Mathematical Representation without Degeneracy, MATCH Communications in Mathematical and in Computer Chemistry,57(3),2007,687-(SCI,影响因子5)37.Guohua Huang, Bo Liao, Wu Zhang, Fei Gong, A Novel Method for Sequence Alignment and Mutation Analysis, MATCH Communications in Mathematical and in Computer Chemistry,59(3),2008,635-(SCI,通信作者,影响因子5)38.Bo Liao, Ceng Zeng, Fuqiang Li, Yong Tang, Analysis of Similarity/Dissimilarity of DNA Sequences Based on Dual Nucleotides, MATCH Communications in Mathematical and in Computer Chemistry,59(3),2008,647-(SCI,影响因子5)39.Weiyang Chen ,Bo Liao,Yanshu Liu, Wen Zhu, Zhizhong Su, A numerical representation of DNA sequence and its applications, MATCH Communications in Mathematical and in Computer Chemistry,60(2),2008,291- (SCI,通信作者,影响因子5)40.Zhi Cao, Bo Liao, Renfa Li, A group of 3D graphical representation of DNA sequences based on dual nucleotides, International Journal of Quantum Chemistry,108,2008,1485-(通信作者,SCI,影响因子368)41.Guohua Huang, Bo Liao, Yongfan Li, Zanbo Liu,H–L curve: A novel 2D graphical representation for DNA sequences,Chemical Physics Letters, 462(1-3), 2008, 129-132(SCI,通信作者,影响因子207)42.Weiyang Chen, Bo Liao, Wen Zhu, Hao Liu, Qingguang Zeng,An ant colony pairwise alignment based on the dot plots,Journal of Computational Chemistry,2009,30,93-97 (SCI,EI,通信作者,影响因子297) Yongfan Li, Guohua Huang, Bo Liao, Zanbo Liu, H-L Curve: A Novel 2-D Graphical Representation of Protein Sequences, MATCH Communications in Mathematical and in Computer Chemistry,61(2),2009,519-532 (SCI,通信作者,影响因子5)Zanbo Liu, Bo Liao, Wen Zhu, A New Method to Analyze the Similarity Based on Dual Nucleotides of the DNA Sequence, MATCH Communications in Mathematical and in Computer Chemistry,61(2),2009,541-552(SCI,通信作者,影响因子5)45.Weiyang Chen, Bo Liao, Xuyu Xiang,Wen Zhu, An Improved Binary Representation of DNA Sequences and Its Applications,MATCH Communications in Mathematical and in Computer Chemistry,61(3),2009,767-780(通信作者,SCI,影响因子5)46.Zanbo Liu, Bo Liao, Wen Zhu, Guohua Huang, A 2-D graphical representation of DNA sequence based on dual nucleotides and its application, International Journal of Quantum Chemistry,109(5),2009,948-958(通信作者,SCI,影响因子368)47.Weiyang Chen, Bo Liao, Wen Zhu, Xuyu Xiang, Multiple sequence alignment algorithm based on a dispersion graph and ant colony algorithm, Journal of Computational Chemistry, (13)30,2009,2031-2038 ( 通信作者,SCI ,影响因子297)48.Yan Lu, Bo Liao, Wen Zhu, Xinyuan Zhou,Identify the most significant genes based on Prim algorithm of minimal spanning tree,Journal of Computational and Theoretical Nanoscience, 6(5),2009, 1136–1139 ( 通信作者, SCI, 影响因子981)49.Bo Liao, Weiyang Chen, Xingming Sun,Wen Zhu, A binary coding method of RNA secondary structure and its application, Journal of Computational Chemistry, 30(14),2009,2205-2212(SCI,影响因子297)50.Zhi Cao, Bo Liao, Renfa Li, Wen Zhu,A three-dimensional cube representation of RNA secondarystructure and its application,Journal of Computational and Theoretical Nanoscience, 6,2009,1474-1481 ( 通信作者, SCI ,影响因子981) Hao Liu, Bo Liao, Zhi Cao, Renfa Li, Node Based clustering method on protein-protein interaction network,Journal of Computational and Theoretical Nanoscience, 2009,6(10),2198-2202( 通信作者, SCI ,影响因子981) Li Zhang, Bo Liao, Dachao Li, Wen Zhu, A novel representation for apoptosis protein subcellular localization prediction using support vector machine, Journal of Theoretical Biology , 259,2009,361-365 ( 通信作者, SCI ,影响因子454) Guohua Huang, Bo Liao, Rongfan Li, Similarity studies of DNA sequences based on a new 2D graphical representation, Biophysical Chemistry, 143,2009,55-59 ( 通信作者, SCI ,影响因子361) Xuyu Xiang, Bo Liao, Dafang Zhang, Jiawei Luo, A binary coding method for RNA secondary structure alignment,Journal of Computational and Theoretical Nanoscience, ( 通信作者, SCI ,影响因子981) Li Xi, Bo Liao, Zeng Qingguang, Luo Jiawei, Protein functional class prediction using global encoding of amino acid sequence, Journal of Theoretical Biology , 261,2009,290-293 ( 通信作者, SCI ,影响因子454) Bo Liao, Xing Li, Luo Jiawei, Zeng Qingguang, Zhu Wen, A Novel Method for Feature Gene Selection based on Geodesic Distance, Journal of Computational and Theoretical Nanoscience, 2010( 通信作者, SCI ,影响因子981) Zhi Cao, Bo Liao, Renfa Li, Luo Jiawei, Zhu Wen, RNA secondary structure alignment based on an extended binary coding method, International Journal of Quantum Chemistry, 2010, ( 通信作者, SCI ,影响因子368) Wen Zhu, Bo Liao, Rentalfa Li, A Novel method for constructing phylogenetic tree based on a dissimilarity matrix, MATCH Communications in Mathematical and in Computer Chemistry, 2010, 483-492 ( 通信作者, SCI ,影响因子5) Bo Liao, Lijiao Liao, Guangxue Yue, Ronghui Wu, Wen Zhu, A Vertical and horizontal method for constructing phylogenetic tree, MATCH Communications in Mathematical and in Computer Chemistry, 2010, 691-700( 通信作者, SCI ,影响因子5)Weifeng Jia,Bo Liao, Dachao Li,Jiawei Luo, Protein function prediction using a double weighted k-nearest neighbor method,Journal of Computational and Theoretical Nanoscience, 2010 (通信作者, in press,影响因子981)Bo Liao, Qianfeng Liu,Qingguang Zeng, Jiawei Luo,Guangxue Yue, An approach for data selection of protein function predictio, MATCH Communications in Mathematical and in Computer Chemistry, 65(2),2010,459-468(SCI ,影响因子5)Bo Liao, Benyou Liao, Xingming Sun, Qingguang Zeng, A Novel method for similarity analysis and protein subcellular localization prediction, Bioinformatics, 2010,26(21),2678-2683 (SCI ,影响因子926) Xinyuan Zhou, Bo Liao, Lijiao Liao, Xinguo Lu, A Discrete Measure for Phylogenetic Construction Based on Information Gain, MATCH Communications in Mathematical and in Computer Chemistry, 66(1),2011 (通信作者,SCI ,影响因子5)廖波,王天明,一类RNA二级结构的计数,《应用数学》2(2002) 109-廖波,王天明,RNA 二级结构的最小自由能算法,《生物数学学报》 18(3) 2003, 364-廖波,王天明,RNA 二级子结构的计数,《生物数学学报》4(2004)袁春欣,廖波,王天明,mRNA 序列与蛋白序列的对比,《大连理工大学学报》6(44),2004,925-927(EI)白风兰,廖波,王天明,拓扑指数在生物序列相似性比较中的应用,生物数学学报,2006,21(4),521-李鹏程,廖波,罗娟,吴迪,无线传感器网络中一种移动节点定位算法,小型微型计算机系统,2008,29(11),2051-刘昊,廖波,彭丽红,基于蛋白质相互作用网络的聚类算法研究,计算机工程与应用,2008,44(30),142-彭丽红,廖波,刘昊,基于蛋白质相互作用网络图的聚类方法,计算机工程与应用,2008,44(32),132-苏志忠,廖波,陈维洋,一种基于信息理论的新分子序列度量法,计算机与应用化学,2009,26(11),1380-周芳,廖波,一种改进的蚁群算法及其在2DHP格点模型中的应用,计算机工程与设计,2009,30(22),5175-5177

ISI影响因子与SCI影响因子

文章即article,只要是被ISI收录的文章就是sci的文章,即会有相对应的影响因子。

jcr影响因子和sci影响因子

中科院SCI分区和JCR分区区别为:依据不同、划分不同、归类不同。一、依据不同1、sci分区:sci分区是按期刊的三年版的平均影响因子来划分的。2、JCR分区:JCR分区是把某一个学科的所有期刊的上一年的影百响因子按降序排列,然后进行等分。二、划分不同1、sci分区:sci分区分为四个区度,每个区所占的比例是不相等的,一区:前5%;二区:6%~20%;三区:21%~50%;四区:51%~100%。2、JCR分区:JCR分区分为四个区度,每个区所占的比例是相等的,前25%(含25%)划分为1区,前25 -50% (含50%)为2区,前50-75% (含75% )为3区,75%~100%为4区。三、归类不同1、sci分区:sci分区基于JCR分区,将176个小类专业合并为了医学、生物学等14个学科。2、JCR分区:JCR分区按照小类的专业将学科归类174个小类。

虽然是两个概念,但是还是有一定联系的,中科院的分区参考了JCR的分区标准(都是基于索引数据),不过中科院的分区比JCR的分区更严格一些。以下可能对你有所帮助(摘自小木虫):汤森路透JCR分区法:JCR将收录期刊分为176个不同学科类别。每个学科分类按照期刊的影响因子高低,平均分为4个区:各学科分类中影响因子前25%(含25%)期刊划分为1区;各学科分类中影响因子位于学科中总刊数的前25 -50% (含50%)为2区;各学科分类中影响因子位于学科中总刊数的前50-75% (含75% )为3区;各学科分类中影响因子位于学科中总刊数的后75%为4区;中国科学院SCI分区法:中国科学院文献情报中心根据每年的JCR数据,将学科分为14个大类和174个小类。每个学科分类按照期刊的影响因子高低,分为4四个区:各学科分类中影响因子前5%(含5%)期刊划分为1区;各学科分类中影响因子位于学科中总刊数的前5-20% (含20%)为2区;各学科分类中影响因子位于学科中总刊数的前20-50% (含50% )为3区;各学科分类中影响因子位于学科中总刊数的后50%为4区;存在没有进入四个分区的SCI收录期刊。

虽然是两个概念,但是还是有一定联系的,中科院的分区参考了JCR的分区标准(都是基于索引数据),但是中科院的分区比JCR的分区更严格一些。以下可能对你有所帮助:汤森路透JCR分区法:1、各学科分类中影响因子前25%(含25%)期刊划分为1区2、各学科分类中影响因子位于学科中总刊数的前25 -50% (含50%)为2区3、各学科分类中影响因子位于学科中总刊数的前50-75% (含75% )为3区4、各学科分类中影响因子位于学科中总刊数的后75%为4区中国科学院SCI分区法:中国科学院文献情报中心根据每年的JCR数据,将学科分为14个大类和174个小类。每个学科分类按照期刊的影响因子高低,分为4四个区:1、各学科分类中影响因子前5%(含5%)期刊划分为1区2、各学科分类中影响因子位于学科中总刊数的前5-20% (含20%)为2区3、各学科分类中影响因子位于学科中总刊数的前20-50% (含50% )为3区4、各学科分类中影响因子位于学科中总刊数的后50%为4区

jec期刊影响因子2018影响因子

jeccr杂志影响因子在29左右。因为根据Web of Science数据库的最新统计:JECCR杂志2017-2018年共发表499篇论著和综述,在2019年已被引用3639次。 因此,截止目前即时影响因子:29,按照往年经验,今年发布的SCI影响因子过7分肯定没问题,在六月份公布的结果中,还会略有上涨。JECCR期刊官网提供了审稿周期信息。从提交到第一决定的平均时间约为8天,从提交到给出审稿意见的平均时间约为27天,从提交到接受的平均时间约为95天,出版时间约为21天。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。影响因子并非一个最客观的评价期刊影响力的标准。一般来说影响因子高,期刊的影响力就越大。对于一些综合类,或者大项的研究领域来说,因为研究的领域广所以引用率也比较高。

期刊影响因子和文献影响因子

影响因子是1972年由E1加菲尔德提出的,现已成为国际上通行的一个期刊评价指标。学术期刊影响因子(Impact Factor)是指期刊近两年的平均被引率,即该期刊前两年发表的论文在评价当年被引用的平均次数。用公式表示为:影响因子=该刊前2年所发表的论文在第3年被引用的次数/该刊2年内所发表的论文总数从其定义可知,影响因子的三个决定因素分别为时间(2年)、论文总数(该刊连续2年内所发表论文总数)、被引用次数(上述论文在第3年被引用的总次数)。影响因子是一个相对数量指标,一般认为能够较好的反映期刊被使用的真实客观情况,可较公平的评价各类学术期刊,通常影响因子越大,期刊的学术影响力和作用也越大!我是润勉论文网的袁老师,以上是我了解到的资料,如果你还有什么问题,可以随时登陆我的网站详细咨询!

一、期刊的影响因子是什么?  期刊的影响因子(Impact factor,IF),是表征期刊影响大小的一项定量指标。也就是某刊平均每篇论文的被引用数,它实际上是某刊在某年被全部源刊物引证该刊前两年发表论文的次数,与该刊前两年所发表的全部源论文数之比。  计算公式:IF(k)= (nk-1+nk-2) / ( Nk-1+Nk-2)。  二、如何查询期刊影响因子  首先,查询影响因子要知道具体的查询地址,外文期刊和中文期刊的查询地址不同。  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。  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。  其次,查询影响因子必需知道期刊缩写名,这个有很多规则,具体如下:  单个词组成的刊名不得缩写  部分刊名由一个实词组成,如Biomaterials,nature,science等不得缩写。  刊名中单音节词一般不缩写  英文期刊中有许多单音节词,如FOOD,CHEST,CHILD,这些词不得缩写。如医学期刊hearand lung, 缩写为Heart Lung,仅略去连词但少数构成地名的单词,如NEW,SOUTH等,可缩写成相应首字字母。如New England Journal of Medcine,可缩写为N Engl J Med,不应略为New Engl J Med,South African Journal of Surgery可缩写为S Afr J Surg,不可缩写为South Afr J S另外,少于5个字母(含5个字母)的单词一般不缩写,如Acta,Heart,Bone,Joint等均不缩写。  刊名中的虚词一律省略  国外学术期刊刊名中含有许多虚词,如the,of,for,and,on,from,to等,在缩写时均省去。如Journal of chemistry缩写为J chem, Archives of Med

SCI(《科学引文索引》,英文全称为Science Citation Index)是美国科学情报研究所(Institute for Scientific Information,简称ISI,网址:)出版的一部世界著名的期刊文献检索工具,其出版形式包括印刷版期刊和光盘版及联机数据库,现在还发行了互联网上Web版数据库。  SCI收录全世界出版的数、理、化、农、林、医、生命科学、天文、地理、环境、材料、工程技术等自然科学各学科的核心期刊约3500种。ISI通过它严格的选刊标准和评估程序挑选刊源,而且每年略有增减,从而做到SCI收录的文献能全面覆盖全世界最重要和最有影响力的研究成果。  ISI所谓最有影响力的研究成果,指的是报道这些成果的文献大量地被其它文献引用。为此,作为一部检索工具,SCI一反其它检索工具通过主题或分类途径检索文献的常规做法,而设置了独特的“引文索引”(Citation Index)。即通过先期的文献被当前文献的引用,来说明文献之间的相关性及先前文献对当前文献的影响力。  SCI以上做法上的特点,使得SCI不仅作为一部文献检索工具使用,而且成为科研评价和的一种依据。科研机构被SCI收录的论文总量,反映整个机构的科研、尤其是基础研究的水平;个人的论文被SCI收录的数量及被引用次数,反映他的研究能力与学术水平。  此外,ISI每年还出版JCR(《期刊引用报告》,全称Journal Citation Reports)。JCR对包括SCI收录的3500种期刊在内的4700种期刊之间的引用和被引用数据进行统计、运算,并针对每种期刊定义了影响因子(Impact Factor)等指数加以报道。一种期刊的影响因子,指的是该刊前二年发表的文献在当前年的平均被引用次数。一种刊物的影响因子越高,也即其刊载的文献被引用率越高,一方面说明这些文献报道的研究成果影响力大,另一方面也反映该刊物的学术水平高。因此,JCR以其大量的期刊统计数据及计算的影响因子等指数,而成为一种期刊评价工具。图书馆可根据JCR提供的数据制定期刊引进政策;论文作者可根据期刊的影响因子排名决定投稿方向。

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