学术成果
【学术著作】
• 交叉科学:测度、评价与应用,科学出版社,2019(入选“21世纪图情领域高影响力图书Top100”)
• 团队科学论:增强团队科学的效能,科学出版社,2024
• 全球企业创新指数报告:战略性新兴产业,社会科学文献出版社,2024
• 科学计量学手册,首都经济贸易大学出版社,2024
• 长江中游城市群高质量发展报告,社会科学文献出版社,2023
【部分代表性期刊论文】(第一作者/通讯作者)
• (2023). Tracking the featured topics of the International Science of Team Science conference series and their evolution during 2010-2019. Scientometrics, 128(4): 2447-2469.
• (2023). The dynamics of policy coordination: The case of China's science and technology policy-making. Science and Public Policy, 50(2): 177-193.
• (2023). The science of team science (SciTS): An emerging and evolving field of interdisciplinary collaboration. Profesional De La Informacion, 32(2): e320204.
• (2023). Chinese public university patents during 2006-20: a comprehensive investigation and comparative study. Science and Public Policy, 50(3): 416-432.
• (2023). Who tweets scientific publications? A large-scale study of tweeting audiences in all areas of research. Journal of The Association for Information Science And Technology, 74(13): 1485-1497.
• (2022). Patent analysis for generating the technology landscape and competition situation of renewable energy. Journal of Cleaner Production, 378: 134264.
• (2022). How public investment fuels innovation: Clues from government-subsidized USPTO patents. Journal of Informetrics, 16(3): 101313
• (2022). How scientific research incorporates policy: an examination using the case of China's science and technology evaluation system. Scientometrics, 2022, 127(9): 5283-5306.
• (2022). "Big data" driven tech mining and ST&I management: an introduction. Scientometrics, 2022, 127(9): 5227-5231.
• (2022). Technology life cycle analysis: From the dynamic perspective of patent citation networks. Technological Forecasting and Social Change, 181: 121760.
• (2022). Uses of the Journal Impact Factor in national journal rankings in China and Europe. Journal of The Association for Information Science and Technology, 73(12): 1741-1754.
• (2021). Opinion: Toward inclusive global governance of human genome editing. Proceedings of the National Academy of Sciences, 118(47): e2118540118.
• (2021). Determination of Factors Driving the Genome Editing Field in the CRISPR Era Using Bibliometrics. The CRISPR Journal, 4(5) 728-738.
• (2021). Exploring Technology Evolution Pathways to Facilitate Technology Management: From a Technology Life Cycle Perspective. IEEE Transactions on Engineering Management. 68(5): 1347-1359.
• (2021). Tracing the development of mapping knowledge domains, Scientometrics 126(7): 6201-6224.
• (2021). A comprehensive analysis of the journal evaluation system in China. Quantitative Science Studies, 2 (1): 300-326.
• (2021). On the relationship between interdisciplinarity and impact: Distinct effects on academic and broader impact. Research Evaluation, 30 (3): 256-268.
• (2021). Toward internationalization: a bibliometric analysis of the social sciences in Mainland China from 1979 to 2018. Quantitative Science Studies 2 (1): 376-408.
• (2020) Do national funding organizations properly address the diseases with the highest burden?: Observations from China and the UK. Scientometrics 125, 1733-1761.
• (2020): How scientific research reacts to international public health emergencies: a global analysis of response patterns, Scientometrics 124, 747-773.
• (2020). Patent citation inflation: The phenomenon, its measurement, and relative indicators to temper its effects. Journal of Informetrics, 14(2): 101015.
• (2019). Collaborative networks in gene editing. Nature Biotechnology, 37(10): 1107-1109.
• (2019). An assessment of technology forecasting: Revisiting earlier analyses on dye-sensitized solar cells (DSSCs). Technological Forecasting and Social Change, 146, 831-843.
• (2019). Discovering and forecasting interactions in big data research: A learning-enhanced bibliometric study. Technological Forecasting and Social Change, 146, 795-807.
• (2018). Interdisciplinarity and collaboration: On the relationship between disciplinary diversity in departmental affiliations and reference lists. Scientometrics. 117(1); 271–291.
• (2018). A Technology Delivery System model for characterizing the supply side of technology emergence: Illustrated for Big Data & Analytics. Technological Forecasting and Social Change. 130 (5): 165-176.
• (2017). Early insights on the Emerging Sources Citation Index (ESCI): An overlay map-based bibliometric study. Scientometrics, 111(3): 2041-2057.
• (2017). A hybrid method to trace technology evolution pathways: A case study of 3D printing. Scientometrics, 111 (1): 185-204.
• (2016). How does national scientific funding support emerging interdisciplinary research: A comparison study of Big Data research in the US and China. PloS One, 11(5): e0154509.
• (2015). A systematic method to create search strategies for emerging technologies based on the Web of Science: illustrated for 'Big Data'. Scientometrics, 105(3): 2005-2022.
• (2015). Analyzing collaboration networks and developmental patterns of nano-enabled drug delivery (NEDD) for brain cancer. Beilstein Journal of Nanotechnology, 6(1): 1666-1676.
• 基于多代参考文献的单篇论文学科分类方法研究 [J]. 现代情报, 2024, 44 (06): 119-135.
• 基于学科分类和文本主题的科学基金项目与产出论文目标一致性识别研究 [J]. 情报学报, 2023, 42 (08): 893-905.
• 图书情报领域期刊全文本引文特征研究——基于被引参考文献深度分析功能 [J]. 图书情报工作, 2023, 67 (09): 110-120.
• 5W传播模式下科技期刊传播力评价现状及模型构建研究 [J]. 中国科技期刊研究, 2023, 34 (04): 510-518.
• 跨学科视角下图情档的外部学科融合与内部知识流动 [J]. 图书情报工作, 2023, 67 (01): 117-130.
• 技术演化路径识别:内涵释义与研究进展 [J]. 图书情报工作, 2022, 66 (22): 142-154.
• 内聚-耦合视角下科研团队合作模式识别与对比研究 [J]. 情报科学, 2022, 40 (12): 170-180.
• 基于文本内容自动分类的跨学科测度研究 [J]. 数据分析与知识发现, 2023, 7 (04): 56-67.
• 科研团队学:内涵、进展与展望 [J]. 图书情报工作, 2022, 66 (04): 45-55.
• 多维邻近性对技术创新合作绩效的影响效应——以长江中游城市群合作网络为例 [J]. 科技管理研究, 2022, 42 (01): 51-61.
• 我国交叉科学研究的演进与展望——基于学术著作视角 [J]. 图书情报知识, 2022, 39 (01): 61-72.
• 我国交叉科学研究的演进与展望:基于学术著作视角[J].图书情报知识,2022. 66 (4), 61-72.
• 科研团队学:内涵、进展与展望[J].图书情报工作,2022,66(4):45-55.
• 多维邻近性对技术创新合作绩效的影响效应——以长江中游城市群合作网络为例[J].科技管理研究,2022,42(01):51-61.
• 虚拟团队研究:特征、演化与趋势[J].现代情报,2021,41(09):144-156.
• 梯度理论视角下的长江中游城市群技术创新合作网络研究[J].农业图书情报学报,2021,33(06):54-65.
• 性别视角下国家自然科学基金项目负责人的成果产出与影响研究[J].信息资源管理学报,2021,11(03):110-120.
• 技术会聚:内涵、现状与测度——兼论与学科交叉的关系[J].图书情报工作,2021,65(01):91-101.
• 科研团队的多样性对团队绩效的影响研究[J].科学学研究,2021,39(06):1074-1083.
• 交叉学科设置与评价探讨[J].大学与学科,2020,1(02):86-101.
• 交叉科学研究:内涵、测度与影响[J].科研管理, 2020, 41(07):279-288.
• 交叉科学成果影响力研究:使用数据与引用数据视角[J].情报学报, 2020, 39(05):469-477.
• 图书情报领域中的交叉科学研究:进展与展望[J].情报学报, 2020, 39(05):478-491.
• 论文学科交叉测度研究:从全部引文到章节引文[J].情报学报, 2020, 39(05):492-499.
• 公众信息素养教育:全球进展及我国的对策[J].中国图书馆学报, 2020, 46(03):50-72.
• 跨学科的三维测度——外部知识融合、内在知识会聚与科学合作模式[J].科学学研究, 2019, 37(01):25-35.
• 跨学科合作模式下的交叉科学测度研究——以ESI社会科学领域高被引学者为例[J].情报学报, 2018, 37(03):231-242.
• 基于Web of Science分类的跨学科测度研究[J].科研管理, 2016, 37(03):124-132.
【代表性项目】
• 国家自然科学基金面上项目:多源数据融合视角下技术会聚的形成机制与预测评估研究
• 国家自然科学基金专项项目:科学基金在支撑颠覆性技术发展中的贡献识别与决策优化研究
• 国家自然科学基金青年项目:基于多源异构数据的新兴技术演化路径识别与预测研究
• 国家高端智库重点研究项目:科学智能时代我国产业未来发展新赛道新优势研究
• 第七届中国科协青年人才托举工程项目:颠覆性技术识别、演化与预测研究 纵向科研项目
• 湖北省软科学计划研究重点项目:新兴交叉学科科技计划项目评估监督体系研究
【代表性奖励】
• 第三届中国科学技术情报学会青年情报科学家奖
• 北京市第十七届哲学社会科学优秀成果奖一等奖
• 第九届高等学校科学研究优秀成果奖(人文社会科学)二等奖
• 第15届网络计量学、信息计量学和科学计量学国际会议暨第20届COLLNET国际会议“最佳论文奖”
• 2016年波特兰工程与技术管理国际会议(PICMET 2016)Brad W. Hosler最佳学生论文奖
• 2024年度美国华人图书馆协会(CALA)优秀教师奖
个人学术网页链接:
谷歌学术:https://scholar.google.com.hk/citations?user=goz7XNsAAAAJ&hl=zh-CN