Collaboration network and pattern analysis: case study of dye-sensitized solar cells

Nowadays, the development of emerging technology has become a double-edged sword in the scientific world. It can not only bring lots of innovation to society, but may also cause some terrible consequences due to its unknown factors. International collaboration may be able to reduce risks, which mean...

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Veröffentlicht in:	Scientometrics 2014-03, Vol.98 (3), p.1745-1762
Hauptverfasser:	Wang, Xuefeng, Li, Rongrong, Ren, Shiming, Zhu, Donghua, Huang, Meng, Qiu, Pengjun
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Sprache:	eng
Schlagworte:	Bibliometrics Bibliometrics. Scientometrics Bibliometrics. Scientometrics. Evaluation Computer Science Exact sciences and technology Information and communication sciences Information science. Documentation Information Storage and Retrieval International cooperation Library and information science. General aspects Library Science Research and development Sciences and techniques of general use Solar energy Technology
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container_title	Scientometrics
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creator	Wang, Xuefeng Li, Rongrong Ren, Shiming Zhu, Donghua Huang, Meng Qiu, Pengjun
description	Nowadays, the development of emerging technology has become a double-edged sword in the scientific world. It can not only bring lots of innovation to society, but may also cause some terrible consequences due to its unknown factors. International collaboration may be able to reduce risks, which means a lot to the exploration of the emerging technology. Taking dye-sensitized solar cells (DSSCs) as an example, this paper examines the rapid growth of Chinese DSSCs research and the rise of collaboration between China and other countries/region. We use bibliometric and social network analysis methods to explore the patterns of scientific collaboration at country, institution and individual levels using data from the Science Citation Index. Examining overall trends shows that China has increased her position in DSSCs around the world. Furthermore, by focusing on the individual level, we find that the most influential authors tend to have fixed co-author networks and author name order, which is something worth considering. We use co-author analysis software independently developed to check three kinds of fixed co-author networks to explore author contributions, influence, and Author Activity Index rank in collaboration networks and use the rank we calculated to further explain author contributions in the networks. Results show that Chinese-X (e.g., Chinese-American) authors have pushed the collaboration between country and country and almost every kind of small network has a top author in it to gather others together. The modified author activity index rank list may reflect real research level. Author collaboration patterns have been impacted by the kinds of their institutions to some degree. These results can undoubtedly promote the international collaboration and the innovation process in the similar emerging technology fields.
doi_str_mv	10.1007/s11192-013-1180-8
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subjects	Bibliometrics Bibliometrics. Scientometrics Bibliometrics. Scientometrics. Evaluation Computer Science Exact sciences and technology Information and communication sciences Information science. Documentation Information Storage and Retrieval International cooperation Library and information science. General aspects Library Science Research and development Sciences and techniques of general use Solar energy Technology
title	Collaboration network and pattern analysis: case study of dye-sensitized solar cells
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