TY - JOUR
T1 - A longitudinal analysis of nanotechnology literature
T2 - 1976-2004
AU - Li, Xin
AU - Chen, Hsinchun
AU - Dang, Yan
AU - Lin, Yiling
AU - Larson, Catherine A.
AU - Roco, Mihail C.
N1 - Funding Information:
Acknowledgments This research was supported by the following awards: National Science Foundation (NSF), ‘‘Mapping Nanotechnology Development Based on the ISI Literature-Citation Database,’’ CMMI-0549663 and ‘‘Mapping Nanotechnology Development,’’ CMMI-0533749. The last co-author was supported by the Directorate for Engineering, NSF. The literature data was purchased from Thomson ISI and we thank them for their support.
PY - 2008/12
Y1 - 2008/12
N2 - Nanotechnology research and applications have experienced rapid growth in recent years. We assessed the status of nanotechnology research worldwide by applying bibliographic, content map, and citation network analysis to a data set of about 200,000 nanotechnology papers published in the Thomson Science Citation Index Expanded database (SCI) from 1976 to 2004. This longitudinal study shows a quasi-exponential growth of nanotechnology articles with an average annual growth rate of 20.7% after 1991. The United States had the largest contribution of nanotechnology research and China and Korea had the fastest growth rates. The largest institutional contributions were from the Chinese Academy of Sciences and the Russian Academy of Sciences. The high-impact papers generally described tools, theories, technologies, perspectives, and overviews of nanotechnology. From the top 20 institutions, based on the average number of paper citations in 1976-2004, 17 were in the Unites States, 2 in France and 1 in Germany. Content map analysis identified the evolution of the major topics researched from 1976 to 2004, including investigative tools, physical phenomena, and experiment environments. Both the country citation network and the institution citation network had relatively high clustering, indicating the existence of citation communities in the two networks, and specific patterns in forming citation communities. The United States, Germany, Japan, and China were major citation centers in nanotechnology research with close inter-citation relationships.
AB - Nanotechnology research and applications have experienced rapid growth in recent years. We assessed the status of nanotechnology research worldwide by applying bibliographic, content map, and citation network analysis to a data set of about 200,000 nanotechnology papers published in the Thomson Science Citation Index Expanded database (SCI) from 1976 to 2004. This longitudinal study shows a quasi-exponential growth of nanotechnology articles with an average annual growth rate of 20.7% after 1991. The United States had the largest contribution of nanotechnology research and China and Korea had the fastest growth rates. The largest institutional contributions were from the Chinese Academy of Sciences and the Russian Academy of Sciences. The high-impact papers generally described tools, theories, technologies, perspectives, and overviews of nanotechnology. From the top 20 institutions, based on the average number of paper citations in 1976-2004, 17 were in the Unites States, 2 in France and 1 in Germany. Content map analysis identified the evolution of the major topics researched from 1976 to 2004, including investigative tools, physical phenomena, and experiment environments. Both the country citation network and the institution citation network had relatively high clustering, indicating the existence of citation communities in the two networks, and specific patterns in forming citation communities. The United States, Germany, Japan, and China were major citation centers in nanotechnology research with close inter-citation relationships.
KW - Bibliographic analysis
KW - Citation analysis
KW - Information visualization
KW - Nanoscale science and engineering
KW - Nanotechnology papers
KW - Research and development (R&D)
KW - Self-organizing maps
KW - Technological innovation
UR - http://www.scopus.com/inward/record.url?scp=54249096875&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=54249096875&partnerID=8YFLogxK
U2 - 10.1007/s11051-008-9473-1
DO - 10.1007/s11051-008-9473-1
M3 - Article
AN - SCOPUS:54249096875
SN - 1388-0764
VL - 10
SP - 3
EP - 22
JO - Journal of Nanoparticle Research
JF - Journal of Nanoparticle Research
IS - SUPPL. 1
ER -