How does economic agglomeration affect energy efficiency in China?: Evidence from endogenous stochastic frontier approach. Energy Economics, 2022: 105901. (JCR Q1, SSCI/SCI, IF:9.252, ABS 3星, ESI高被引)
Regional differences on CO2 emission efficiency in metallurgical industry of China. Energy Policy, 2018, 120: 302-311.(JCR Q1, SSCI/SCI, IF:7.576, ESI高被引)
Removing energy allocation distortion to increase economy output and energy efficiency in developing countries: Evidence from China. Energy Policy, 2021, 150: 112110. (JCR Q1, SSCI/SCI, IF:7.576)
Towards energy conservation by improving energy efficiency? evidence from China’s metallurgical industry. Energy, 2021, 216: 119255. (JCR Q1, SCI, IF:8.857)
Exploring the “not in my backyard” effect in the construction of waste incineration power plants - based on a survey in metropolises of China. Environmental Impact Assessment Review, 2020, 82: 106377. (JCR Q1, SSCI, IF:6.122)
Leveraging carbon label to achieve low-carbon economy: Evidence from a survey in Chinese first-tier cities. Journal of Environmental Management, 2021, 286: 112201. (JCR Q1, SCI, IF:8.91)
Accessing people’s attitudes towards garbage incineration power plants: Evidence from models correcting sample selection bias. Environmental Impact Assessment Review, 2023, 107034. (JCR Q1, SSCI,IF:6.122)
Energy efficiency gains from distortion mitigation: A perspective on the metallurgical industry. Resources Policy, 2022, 77. (JCR Q1, SCI, IF:8.222)
Towards low-carbon economy by carbon label?: Survey evidence from first-tier cities in China. Environmental Impact Assessment Review, 2022, 106902. (JCR Q1, SSCI, IF:6.122)
How to reduce CO2 emissions in pharmaceutical industry of China: Evidence from total-factor carbon emissions performance. Journal of Cleaner Production, 2022, 130505. (JCR Q1, SCI, IF:11.072)
Mapping high-resolution urban road carbon and pollutant emissions using travel demand data. Energy, 2023, 126059. (JCR Q1, SCI, IF: 8.857)
.FDI, financial market development and nonlinearities of energy and environmental efficiency in China: Evidence from both parametric and nonparametric models. Energy Economics, 2023, 119:106580. (JCR Q1, SSCI/SCI, IF:9.252, ABS 3星)
Good subsidies or bad subsidies? Evidence from low-carbon transition in China’s metallurgical industry. Energy Economics, 2019, 83: 52-60. (JCR Q1, SSCI/SCI, IF:9.252, ABS 3星)
Exploring the green total factor productivity of China’s metallurgical industry under carbon tax: A perspective on factor substitution. Journal of Cleaner Production, 2019, 233: 1322-1333. (JCR Q1, SCI, IF:11.072)
Quantitative assessment of factors affecting energy intensity from sector, region and time perspectives using decomposition method: a case of China’s metallurgical industry. Energy, 2019, 189: 116289. (JCR Q1, SCI, IF: 8.857)Does China become the “pollution heaven” in South-South trade? Evidence from Sino-Russian trade. Science of The Total Environment, 2019, 666: 964-974. (JCR Q1, SCI, IF:10.754)
The impacts of energy reallocation on economic output and CO2 emissions in China. Energy Economics, 2021, 94:105062. (JCR Q1, SSCI/SCI, IF:9.252, ABS 3星)