利用 web of science(sci/ssci/ahci) 进行科研选题与开题
DESCRIPTION
利用 Web of Science(SCI/SSCI/AHCI) 进行科研选题与开题. 张 辉 汤森路透科技与医疗集团. 提纲. 认识科研利器 SCI/SSCI/A&HCI 成功选题 - 实例 从一个主题角度开始 从一篇高质量论文开始 从一个化学结构式开始 小结 问题与解答. Web of Science :只收录最重要的学术期刊. 严格评估和长期跟踪期刊的影响和质量,决定取舍 选择过程是毫无偏见、全面并经过时间考验的 致力于帮助研究人员专注高质量信息 收录来自 250 多个学科领域 10,000 多种核心期刊 - PowerPoint PPT PresentationTRANSCRIPT
利用 Web of Science(SCI/SSCI/AHCI) 进行科研选题与开题
张 辉张 辉汤森路透科技与医疗集团汤森路透科技与医疗集团
提纲• 认识科研利器 SCI/SSCI/A&HCI
• 成功选题 - 实例– 从一个主题角度开始– 从一篇高质量论文开始– 从一个化学结构式开始
• 小结• 问题与解答
Web of Science :只收录最重要的学术期刊
• 严格评估和长期跟踪期刊的影响和质量,决定取舍• 选择过程是毫无偏见、全面并经过时间考验的• 致力于帮助研究人员专注高质量信息• 收录来自 250 多个学科领域 10,000 多种核心期刊
• “ 布莱德福定律 (Bradford‘s law) ” : 少数的核心期刊汇集了足够的信息 , 反映科技的最新最重要的成果与进展
引文索引的概念 : 收录论文的参考文献并索引Dr. Garfield 1955 年在 Science 发表论文 , 提出将引文索引作为一种新的文献检索与分类工具 , 将一篇文献作为检索字段从而跟踪一个 Idea 的发展过程
Dr. Eugene GarfieldFounder & Chairman Emeritus ISI, Thomson Scientific
“Our ultimate goal is to extend our retrospective coverage of the scientific literature back to the twentieth century. The Century of Science initiative makes that dream come true.”
如何在大量文献中发现课题发展的脉络?
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides. Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides. Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides. Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Synthesis of Amino Acids
Synthesis and/or collection of Synthesis
and/or collection of amino acids is
critical for cell survival. They not only
serve as the building blocks for proteins
but also as starting points for the
synthesis of many important cellular
molecules including vitamins and
nucleotides.
Science Citation Index Expanded, 8.183 种 , 1900-
Social Sciences Citation Index, 2,756 种 , 1900-
Arts & Humanities Citation Index, 1,567 种 , 1975-
Current Chemical Reactions, 100 万条化学反应, 1840-
Index Chemicus, 260 万个化合物, 1993-
Conference Proceedings Citation Index - Science (CPCI-S)--1990-
Conference Proceedings Citation Index - Social Science & Humanities (CPCI-SSH)--1990-
提纲• 认识科研利器 SCI/SSCI/A&HCI
• 成功选题 - 实例– 从一个主题角度开始– 从一篇高质量论文开始– 从一个化学结构式开始
• 小结• 问题与解答
选题时查找和阅读参考文献• 尽可能全面的信息
– 新的研究方法和研究思路– 相关的交叉学科– 密切相关但自己开始没有注意到的文献
• 相对高质量的文献– 读一篇高质量文献和一篇低质量文献要花费相同的时间– 取法乎上,得乎其中
• 多角度分析文献,快速了解课题的来龙去脉
论文的选题 –课题的调研• 追踪溯源 – 检索某个课题的综述文献• 快速锁定本课题相关的高影响力的论文• 分析研究发展趋势• 了解某特定课题在不同学科的分布情况• 了解与自己研究方向有关的机构• 密切关注该研究领域的顶尖研究小组所发表的论文• 了解某著作的被引用情况帮助获取思路,激发研究
思想
利用 Web of Science 进行选题• 从一个主题角度开始
– 找出主题词– 检索并从中找到研究的思路
• 从一篇高质量论文开始– 了解目前论文所涉及到内容的最新动态– 现有的理论基础和经典方法
• 从一个化学结构式开始– 跟踪最新的合成技术– 聚焦新化合物的快讯报道
检索举例 1 – 石墨烯的相关研究•石墨烯( Graphene ),又称单层石墨,是一种由碳原子以 sp2混成轨域組成六角型呈蜂巢晶格的平面薄膜,只有一個碳原子厚度的二維材料。•石墨烯不仅是已知材料中最薄的一种,还非常牢固坚硬;作为单质,它在室温下传递电子的速度比已知导体都快。•石墨烯可以应用于晶体管、触摸
屏、基因测序等领域,同时有望
帮助物理学家在量子物理学研究
领域取得新突
破。
主题
标题
作者
团体作者
编者
出版物名称
出版年
地址
会议
语种
文献类型
基金资助机构
授权号
检索举例 1 :有关石墨烯的相关研究
检索词 : Graphen*检索词 : Graphen*
检索结果页面
互联网上学术网站
引文报告 - 一览全局
哪些是近几年高被引论文?热点论文?——把握热点研究方向
精炼 - 快速检索综述
排序功能 : 被引频次
排序功能 - 锁定高影响力的论文
精炼 – 查看课题涉及的学科类别
石墨烯在材料科学领域的文献
多角度分析把握课题研究趋势
强大的分析功能
- 能够处理 10万条记录 , 多层次的分析
利用 Web of Science强大的分析功能
最多能够处理 10 万条记录
可以从 11 个角度深入分析
11个角度的深入分析:
著者
出版年
机构名称
来源出版物
学科领域
基金资助机构
授权号
国家与地区
文献类型
文献语种
会议标题
出版年:了解课题的发展趋势
保存至本地,用 Excel打开 .txt 文档并作图
Record Count
0
500
1000
1500
2000
2500
3000
1952
1960
1962
1964
1966
1977
1992
1994
1996
1998
2000
2002
2004
2006
2008
2010
著者: - 发现该领域的高产出研究人员- 有利于机构的人才招聘- 选择小同行审稿专家- 选择潜在的合作者
机构 - 发现该领域高产出的大学及研究机构- 有利于机构间的合作- 发现深造的研究机构
基金资助机构 - 发现该领域受到哪些国家或基金的重视
国家与地区 - 发现该领域高产出的国家与地区
查看记录,再次分析,发现中国在该领域 :
– 引领机构 , 高产出 , 高影响力的作者– 经常发表中国作者论文的期刊– 与中国学者合作的国家和机构– 该课题在中国的发展趋势
中国在石墨烯领域发表的论文
中国在石墨烯领域的引领机构,基金资助情况
选择感兴趣的论文查看全记录
2010 年物理学奖得主 -广为人知的消息浮出水面
石墨烯一直被认为是假设性的结构,无法单独稳定存在,直至 2004
年,英国曼彻斯特大学物理学家安德烈 ·海姆和康斯坦丁 ·諾沃肖洛夫,成功地在实验中用胶带“撕裂法”从石墨中分离出石墨烯,而证实它可以单独存在,两人也因:“在二维石墨烯材料的开创性实验”为由,共同获得 2010 年诺贝尔物理学奖的桂冠。
浏览该文章的参考文献
全记录的引文链接 ( 参考文献 )
了解该文章被引用的情况
全记录的引文链接 (施引文献 )
查找该文章相关记录
全记录的引文链接 ( 相关记录 )
高被引论文的作者同时都在看的参考文献非
常重要,应该重点阅读
引证关系图-将引用关系可视化
跟踪本研究的科研机构跟踪本研究的科研机构
数据库链接 (JCR 查看影响因子 )
获取全文
全文链接 : 查看全文
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与作者 Email 联系
获取全文的方法• WoS 全文链接按钮• 馆际互借• 图书馆文献传递• 免费全文网站
– http://www.freemedicaljournals.com/
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• 提供免费全文的期刊– http://intl.sciencemag.org
– www.pnas.org
– www.genetics.org
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创建引文跟踪-随时掌握最新进展
如何随时了解课题的最新研究前沿?
创建定题服务 ,随时跟踪课题最新进展
可以保存检索历史在服务器或本地计算机上可以订制定题服务
定期检索相关课题,并把最新结果发送到指定的邮箱中有效期半年,到时间后可以续订支持RSS Feed
利用 Web of Science 获取思路,激发研究思想• 以一篇高质量的文章为检索起点进行被引文献检索 Cited Refer
ence Search
被引文献检索的特点:
• 以一篇文章、一个作者、一个期刊、一篇会议文献或者一本书作为检索词 , 进行被引文献的检索 . 在不了解关键词或者难于限定关键词的时候,您可以从一篇高质量的文献出发,了解课题的全貌。
– 某一理论有没有得到进一步的证实?是否已经应用到了新的领域 ?
– 某项研究的最新进展极其延伸?
– 某个实验方法是否得到改进?
– 如何了解某篇论文 / 某部论著被引用情况?以揭示其影响力 .
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检索举例 2: 经济学家林毅夫——中国的农村改革及农业增长如何了解某一理论的发展以获悉新的思路?
• 林毅夫,世界银行首席经济学家兼负责发展经济学的高级副行长
• 1992 年发表于《美国经济评论》“中国的农村改革及农业增长”一文被美国科学信息研究所 ISI ( Institute for Scientific Informatio
n )评为 1980 至 1998 年内发表于国经济学界刊物上被同行引用次数最高的论文之一,获颁经典引文奖。
• 对于该文章有那些不同的视角和观点 ?• 该观点目前有哪些新的应用 ?• 基于该理论的最新发展是什么 ?
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被引文献作者lin yf or lin y* or lin j*
被引期刊
1992 年,林毅夫在《美国经济评论》中所发表的《中国的农村改革及农业增长》一文。
1992 年,林毅夫在《美国经济评论》中所发表的《中国的农村改革及农业增长》一文。
被引年代
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该理论被应用于哪些学科的研究中该理论被应用于哪些学科的研究中
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基于该理论的最新发展该理论被应用于哪些学科关于中国的研究又有哪些
基于该理论的最新发展该理论被应用于哪些学科关于中国的研究又有哪些
化学结构检索
• 是专门为满足化学与药学研究人员的需求所设计的数据库。收集了全球核心化学期刊和发明专利的所有最新发现或改进的有机合成方法,提供最翔实的化学反应综述和详尽的实验细节,提供化合物的化学结构和相关性质,包括制备与合成方法。
• CCR 可以跟踪最新的合成技术,包括了摘自 39 个权威出版机构的一流期刊和专利的单步和多步的新合成方法。每一种方法都提供了完整地反应流程,同时伴有详细精确的图形来代表每个反映步骤。
• IC 主要聚焦新化合物的快讯报道,包括了来自国际一流期刊报道的新型有机合成反应的结构与评论数据。除此以外,数据库中的很多全记录展示了从最初原材料到最终产品的整个反应流程。 IC 是揭示生物活性化合物和自然产品的有关最新信息的重要资源。
检索举例 3: 对二乙苯的(产率 >99% )的合成反应
进行化学结构式检索
检索结果页面
链接到反应细节 链接到文献全记录 转至化合物检索结果
提纲• 认识科研利器 SCI/SSCI/A&HCI
• 成功选题 - 实例– 从一个主题角度开始– 从一篇高质量论文开始– 从一个化学结构式开始
• 小结• 问题与解答
神奇按钮总结 -1
神奇按钮总结 -2
提纲• 认识科研利器 SCI/SSCI/A&HCI
• 成功选题 - 实例– 从一个主题角度开始– 从一篇高质量论文开始– 从一个化学结构式开始
• 小结• 问题与解答
免费查询某期刊当前是否被 SCI 收录http://science.thomsonreuters.com.cn/
创新之旅 - 专门为您量身定做的信息交流平台 http://www.youngchinesescientists.org/
优酷网 SCI培训视频浏览下载• http://www.youku.com/playlist_show/id_4251501.html
在线浏览录音课程
• 科研评价系列课程 Essential Science Indicators http://www.youngchinesescientists.org/bbs/dispbbs.asp?boardid=17&id=816&page=1&star=1
• 文献管理系列课程( EndNote Web ) http://www.youngchinesescientists.org/BBS/dispbbs.asp?boardid=5&Id=237
• 专业数据库检索系列课程(生命科学资源 BIOSIS Previews ) http://
www.youngchinesescientists.org/BBS/dispbbs.asp?boardid=5&Id=242
检索技巧全攻略 -操作步骤详解 http://science.thomsonreuters.com.cn/searchtips/ISIWOKsearchtips/
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科研人员的好帮手—足不出户,参加在线培训http://thomsonreuters.webex.com.cn
http://www.youngchinesescientists.org/jlsq/zaixianSCI/
2010 年汤森路透 WOK系列有奖答题竞赛
• 你是 SCI 使用高手吗?来接受挑战吧!• 你还不是 SCI 高手吗?来接受培训吧?•
• 从 11 月 18 日起,汤森路透推出“ 2010 年汤森路透 WOK系列有奖答题竞赛” :
•
• 活动时间: 2010 年 11 月 18 日, 12 月 18 日• 竞赛内容: Web of Knowledge 的使用技巧 • 参赛对象:所有热爱WO K 平台的广大师生,特别是参加在线培训师生• 网上知识竞赛答题须知:参赛选手所填信息必须真实准确。• 竞赛说明:
– 每次试题共 20 道单选或多选题,每题 4 分,满分 100 分– 每个 ID 只有一次答题机会– 答题完成后系统将自动显示成绩
• 评比以及奖项• 按照个人答题正确率从成绩优异者中产生最终优胜者,当优胜者众多时,请学生代表协助抽奖• 奖品设置:• 头等奖:盛大 Bmbbook锦书 1 个 / 期• 一等奖: 2GU盘: 10 个 / 期 • 二等奖: Hub 50 个 / 期 • 三等奖:笔记本: 100 个 / 期 • 奖品交付:• 11月 23日 /12 月 23 日公布获奖名单,在五个工作内将奖品寄送到获奖人手中。• 本次竞赛最终解释权归汤森路透医疗科技信息集团所有。
奖品一等奖:盛大 Bmbook锦书 1 个 / 期 三等奖: Hub 50 个 / 期
优秀奖: 笔记本 100 个期
二等奖: 2G U盘 10 个 / 期
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