Predicting potential knowledge convergence of solar energy: bibliometric analysis based on link prediction model

• Published in: Scientometrics Vol. 126; no. 5; pp. 3749 - 3773
• Main Authors: Duan, Yueran, Guan, Qing
• Format: Journal Article
• Language: English
• Published: Cham Springer International Publishing 01.05.2021; Springer Nature B.V
• Subjects: Bibliometrics; Blurring; Computer Science; Convergence; Ecological effects; Eigenvectors; Energy conversion efficiency; Energy storage; Hybrid systems; Information Storage and Retrieval; Innovations; Keywords; Knowledge; Library Science; Motivation; New technology; Photovoltaic cells; Photovoltaics; Prediction models; Solar energy; Solar energy conversion; Link prediction; Text mining; Knowledge convergence; Bibliometric analysis; Solar energy; Complex network
• ISSN: 0138-9130; 1588-2861
• DOI: 10.1007/s11192-021-03901-6

The innovation and development of emerging technology mostly depend on the way of knowledge convergence defined as the blurring of previously distinct domain-specific knowledge. This paper aims to explore the potential motivation of knowledge convergence and find the law of knowledge convergence, taking the solar energy field as an example. We established Keywords co-occurrence networks of solar energy literature in 2008–2017, and then link prediction is introduced to study the structural mechanism of knowledge convergence. We found that: (1) the common neighbor index better characterizes the knowledge convergence pattern in the knowledge networks among four similarity indicators. (2) The keywords co-occurrence network could effectively mine the structural characteristics of knowledge convergence; (3) the convergence cycle of knowledge in the field of solar energy was about 4 years; (4) keywords with higher betweenness centrality or eigenvector centrality easily generated knowledge convergence; (5) a literature knowledge convergence prediction model is proposed based on these results; and (6) the prediction results showed that scholars should pay attention to six basic issues including energy storage, efficiency, cost, ecological effect, application scenarios, and hybrid photovoltaic systems. This work can provide guidance not only for scholars to grasp the research direction and to generate more innovations but for the government to formulate the policies of government funding.