|Technology gap, global value chain and carbon intensity: Evidence from global manufacturing industries
|Ye C.; Ye Q.; Shi X.; Sun Y.
|The technological progress of a country may mean that its technology gap compared to the frontier has changed, which will induce a change in its positioning in the global value chain and affect its carbon intensity. Using paten data, Input Output Database and the Global Value Chain Index, we employ systematic Generalized Method of Moments, quantile regression with panel data and multilevel mediation analysis to measure empirically the impact of the technology gap on carbon intensity and positioning on the global value chain. The empirical analysis shows that narrowing the technology gap will reduce significantly a country's carbon intensity. Further, the effect of the technology gap on carbon intensity is more pronounced on industries with higher carbon intensity. The mechanism test using the mediation effect model proves that the impact of the technology gap on carbon intensity is achieved by changing in the position of global value chain. The findings suggest that a country's carbon intensity performance is not only affected by its own technological progress, but also by global frontiers. Therefore, a country should not only pay attention to its own technological progress but also to the development of global frontier technologies and speed of technological progress. © 2019 Elsevier Ltd
|Carbon intensity; Global value chain; Mediation effect model; Technology gap
|Method of moments; Carbon intensity; Effect model; Generalized method of moments; Global manufacturing; Global value chain; Quantile regression; Technological progress; Technology gap; Carbon; carbon emission; empirical analysis; energy policy; energy use; manufacturing; panel data; regression analysis; technological change; technological development
|Economics and Management School, Wuhan University, China; Australia-China Relations Institute, University of Technology Sydney, Australia; Energy Studies Institute, National University of Singapore, Singapore; School of Low Carbon Economics, Hubei University of Economics, China; Center of Hubei Cooperative Innovation for Emissions Trading System, China
Ye C.,Ye Q.,Shi X.,et al. Technology gap, global value chain and carbon intensity: Evidence from global manufacturing industries[J],2020,137.
Ye C.,Ye Q.,Shi X.,&Sun Y..(2020).Technology gap, global value chain and carbon intensity: Evidence from global manufacturing industries.Energy policy,137.
Ye C.,et al."Technology gap, global value chain and carbon intensity: Evidence from global manufacturing industries".Energy policy 137(2020).
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