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如何借助 Web of Science ( SCI…) 开展创新性研究,提高学术影响力

如何借助 Web of Science ( SCI…) 开展创新性研究,提高学术影响力. 汤森路透北京代表处 沙立洲. 2011 年 7 月科技部发布 《 国家十二五科学和技术发展规划 》. 发展规划附录:重要指标和名词解释 国际科学论文被引用次数:国际科学论文被引用次数是指被科学引文索引 ( SCI ) 收录的学术论文在发表后的一段时间内被引用的次数之和。. 温州医学院 Web of Science ( SCI 、 SSCI 、 A&HCI) 文章收录情况. 温州医学院表现最为活跃的学科. 化学 生物化学和分子生物学 眼科学 药理和药剂学 外科学 肿瘤学

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如何借助 Web of Science ( SCI…) 开展创新性研究,提高学术影响力

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  1. 如何借助Web of Science(SCI…) 开展创新性研究,提高学术影响力 汤森路透北京代表处 沙立洲

  2. 2011年7月科技部发布《国家十二五科学和技术发展规划》 发展规划附录:重要指标和名词解释 国际科学论文被引用次数:国际科学论文被引用次数是指被科学引文索引(SCI)收录的学术论文在发表后的一段时间内被引用的次数之和。

  3. 温州医学院Web of Science(SCI、SSCI、A&HCI)文章收录情况

  4. 温州医学院表现最为活跃的学科 化学 生物化学和分子生物学 眼科学 药理和药剂学 外科学 肿瘤学 神经学 细胞生物学 实验医学研究 肝脏病学 。。。。。。

  5. 温州医学院科技论文产出趋势

  6. 纲要 • 提高学术科研效率的有效途径 • 如何快速获取最有价值的学术科研参考文献 • 如何利用Web of Science(SCI…)进行创新性的研究 • 如何利用Web of Science(SCI…)订制文献情报跟踪 • 如何利用EndNote Web管理和格式化参考文献

  7. Synthesis of Amino Acids 1JACS 1995 2JOC 1987 提高科研效率的有效途径 1JACS 1995 2JOC 1987 • 科学研究的基本工作流程 Synthesis of Amino Acids Synthesis of Amino Acids 成果 发现 (Discovery) 开题 寻找 思路 (Find) 实验 论证 (Test) 文献 想法(Idea) 确定 方法 (Way) 实践 (Practice)

  8. 提高科研效率的有效途径 • (NSF)美国科学基金会统计数据

  9. 如何快速获取最有价值的科研参考信息 • 科研人员获取科学信息的主要途径

  10. 如何快速获取最有价值的科研参考信息 • 如何从浩瀚文献中快速锁定跟科研课题最相关的前沿参考信息?

  11. 如何快速获取最有价值的科研参考信息 • 权威的参考数据 • Web of science • SCI (Science Citation Index Expanded) 1900- • SSCI (Social Sciences Citation Index) 1900- • A&HCI (Arts & Humanities Citation Index) 1975- • CPCI (Conference Proceeding Citation Index) 1990- • CCR (Current Chemical Reactions) 1840- • IC (Index Chemicus) 1993-

  12. 如何快速获取最有价值的科研参考信息 SCI SSCI … CSCD DII JCR BP

  13. Dr. Eugene Garfield Founder & 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.” 如何快速获取最有价值的科研参考信息 • 科学的检索方式:主题词检索+引文索引 • 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 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.

  14. 如何快速获取最有价值的科研参考信息 • 科学的检索方式:主题词检索+引文索引 案例:注意力缺失/多动症 (Attention Deficit Hyperactivity Disorder,ADHD) 仅通过主题词/关键词检索,查到的参考文献最早为20世纪80年代初 • 有关ADHD的最早研究是否开始于这段时间? • 我们是否真正了解到这项研究的历程和发展?

  15. 从1902年Still的开创性研究以后,ADHD经历了很多术语名称的变化。通过WoS特有的引文索引,我们可以从不同年代追溯Still 这篇文章的引文,从而了解有关行为障碍的研究领域的发展历程。 1966 儿童多动综合症 (Hyperactive child syndrome) 1978 多动症与轻微脑功能损伤 (Hyperkinetic Minimal Brain Dysfunction) 1984 注意力缺失 (Attention Deficit Disorder) 2000 注意力缺失/多动症 (Attention Deficit Hyperactivity Disorder) 15

  16. 如何快速获取最有价值的科研参考信息 • 快速全面的分析

  17. 2011年3月11日,日本大地震引发的海啸巨浪冲向日本东北部岩手县宫古市。2011年3月11日,日本大地震引发的海啸巨浪冲向日本东北部岩手县宫古市。 2010年11月18日,北京的PM2.5微型颗粒物水平超过500,是世界卫生组织准则值的20倍。 2011年6月10日,湖南岳阳受强降雨影响,多处引发山洪和泥石流。 2011年5月11日,湖南岳阳洞庭湖裸露湖床上干旱造成的裂痕可伸进拳头。

  18. 例子:关于影响全球气候变化的一个关键因素 ---气溶胶”的研究 如何利用WoS进行创新性的研究,提高科研水平 “organic* aerosol*”

  19. 如何利用WoS进行创新性的研究,提高科研水平 Organic aerosol

  20. 如何利用WoS进行创新性的研究,提高科研水平 • 直接精炼 or 全面了解 精炼

  21. 如何利用WoS进行创新性的研究,提高科研水平 • Review:快速了解课题全貌 REVIEW

  22. 如何利用WoS进行创新性的研究,提高科研水平 • 分析:通过不同字段的数据统计分析该课题研究历史和现状 分析检索结果

  23. 如何利用WoS进行创新性的研究,提高科研水平 • 出版年:分析课题发展历程和趋势 出版年

  24. 如何利用WoS进行创新性的研究,提高科研水平 • 学科类别:分析课题的学科分布 学科类别

  25. 如何利用WoS进行创新性的研究,提高科研水平 • 国家/地区:分析课题在全球研究实力的分布 国家/地区

  26. 如何利用WoS进行创新性的研究,提高科研水平 • 机构名称:分析全球那些机构对该课题研究比较多 机构名称

  27. 如何利用WoS进行创新性的研究,提高科研水平 • 基金资助机构:了解基金对该课题资助的情况 • 美国国家科学基金 • 美国宇航局 • 中国国家自然科学基金 • 欧盟委员会 • 中国科学院 • 美国海洋和大气管理局 • …… 基金资助机构

  28. 如何利用WoS进行创新性的研究,提高科研水平 • 来源出版物:了解那些出版物对该课题感兴趣 • 《大气环境学》 • 《地球物理学研究杂志-D辑:大气》 • 《大气物理化学》 • …… 来源出版物

  29. 如何利用WoS进行创新性的研究,提高科研水平 • 作者:了解哪些科研人员对此课题的研究比较多 作者

  30. 如何利用WoS进行创新性的研究,提高科研水平 • 引文报告:了解某机构、国家、研究人员等在该课题上近些年的研究成果以及影响力 创建引文报告

  31. 如何利用WoS进行创新性的研究,提高科研水平 • 引文报告:了解某机构、国家、研究人员等在该课题上近些年的研究成果以及影响力 全球在此课题领域的研究水平 H指数-161

  32. 如何利用WoS进行创新性的研究,提高科研水平 • 引文报告:了解某机构、国家、研究人员等在该课题上近些年的研究成果以及影响力 中国在此课题领域的研究水平 H指数-49

  33. 如何利用WoS进行创新性的研究,提高科研水平 • 通过引文报告中每年引用情况甄别现在依旧活跃的研究成果 √

  34. 如何利用WoS进行创新性的研究,提高科研水平 • 通过高影响力文献,了解课题发展的历史,现状和趋势 施引文献 文后参考文献 引证关系图

  35. 如何利用WoS进行创新性的研究,提高科研水平 • 通过文章背后的参考文献寻找该课题的研究历史以及过去的重要研究成果 1997 1992 1989 1977 现代地球物理学的奠基人之一杰弗里斯 1958 1948 1918

  36. 如何利用WoS进行创新性的研究,提高科研水平 • 通过引用该文章的施引文献发现该课题的研究发展方向和最新成果 在墨西哥湾深海石油钻井平台漏油之后,在海面上空积累了一个高浓度的有机气溶胶空气污染气柱,这些继发性气溶胶是从原油泄漏处周围的较为宽广的区域所散发出来的 …… 2005 2007 2011

  37. 如何利用WoS进行创新性的研究,提高科研水平 引证关系图:更直观地展现高影响力研究成果

  38. 如何利用WoS进行创新性的研究,提高科研水平 • 通过延伸阅读获取更多文献信息 Related Records 相关记录

  39. 如何利用WoS进行创新性的研究,提高科研水平 Synthesis of Amino Acids Synthesis of Amino Acids Synthesis of Amino Acids Synthesis of Amino Acids Synthesis of Amino Acids 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 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 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 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 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 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. • 如何理解Web of Science中的相关记录 论文乙 论文甲 Synthesis of Amino Acids 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 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. A B C D E F

  40. 如何利用WoS进行创新性的研究,提高科研水平 相关记录:通过相关性检索获取更多科学线索,开拓思路,跨学科研究 相关度分析

  41. 如何利用WoS进行创新性的研究,提高科研水平 • 通过延伸阅读获取更多文献信息 JCR - 期刊影响因子 ESI - 高影响力论文

  42. Journal Citation Report (JCR) Journal Ranking

  43. Journal Citation Report (JCR)

  44. 如何利用WoS进行创新性的研究,提高科研水平 2004 2003 从一篇高质量的文献出发 沿着科学研究的发展道路… Times Cited 2003 1998 2004 Cited References 分析: 学科分布、发展趋势、机构/作者等 1995 Related Records 1993 1991 2004 1980 2002 Citing  1999 … Cited References 越查越旧 Times Cited 越查越新 Related Records 越查越深 1994 44

  45. 借助Web of Knowledge提供的科研辅助工具提高科研效率 文献情报跟踪 文献管理与格式化 科研交流和推广

  46. 如何利用Web of Knowledge订制文献情报跟踪 ---借助 Web of Knowledge 创建引文跟踪 创建引文跟踪

  47. 如何利用Web of Knowledge订制文献情报跟踪 ---借助 Web of Knowledge 创建引文跟踪

  48. 如何利用Web of Knowledge订制文献情报跟踪 ---借助 Web of Knowledge 创建定题跟踪

  49. 借助Web of Knowledge提供的科研辅助工具提高科研效率 文献情报跟踪 文献管理与格式化 科研交流和推广

  50. 如何利用EndNote Web 管理和格式化参考文献 EndNote Web 模块 - 建立基于Web的 My Library,组织管理文献资源并应用于论文写作

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