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[1]Yang L, LiYM*, WangD, Wang ZN, Yang YT, Lv HD, Zhang X.Relieving the water-energy nexus pressure through whole supply chain management: Evidence from the provincial-level analysis in China. Science of the Total Environment, 2022, 807:150809(SCI,IF=7.963,JCR一区)[2]YangL, Xu M,Fan JL, Liang X,ZhangX*, LvHD, Wang D. Financing coal-fired power plant todemonstrate CCS (Carbon Capture and Storage) through an innovative policy incentive in China. Energy Policy, 2021,158,112562. (SCI,IF=6.142,JCR一区)[3]Li YM, YangL*, WangD, Zhou Y, He WJ, Li B, YangYT, Lv HD. Identifying the critical transmission sectors with energy-water nexus pressures in China’s supply chain networks. Journal of Environmental Management,2021,289, 112518.(SCI,IF=5.647,JCR一区)[4]Yang L, LvHD*,Jiang DL,Fan JL, Zhang X*, He WJ, Zhou JS, Wu WJ. Whether CCS technologies will exacerbate the water crisis in China? —Afull life-cycle analysis. Renewable and Sustainable Energy Reviews, 2020, 134 :110374.(SCI,IF=12.11,JCR一区)[5]LvHD, Yang L*, Zhou JS, Zhang X,WuWJ, Li YM, JiangDL. Water resource synergy management in response to climatechange inChina: From the perspective of urban metabolism. Resources, Conservation & Recycling, 2020, 163: 105095.(SCI,IF=8.086,JCR一区)[6]Yang L, Yang YT*, Lv HD, Wang D, Li YM,HeWJ. Water usage for energy production and supply in China: Decoupled fromindustrial growth?. Science of the Total Environment, 2020, 719:137278.(SCI,IF=7.963,JCR一区)[7]Yang L, Yang YT*, Lv HD, Wang D. Whether China made efforts to decouple economicgrowthfrom CO2emissions?-Production vs consumption perspective.Environmental Science and Pollution Research, 2020,27:5138–5154. (SCI,IF=3.056, JCR二区)5138-5154[8]Yang L*, Ma CB, Yang YT, Zhang EC, Lv HD. Estimating the regional eco-efficiency in Chinabased on
bootstrapping by-productiontechnologies. Journal of Cleaner Production,2020,243:118550. (SCI, IF=7.246, JCR一区)[9]Yang L, Xu M, Yang YT, Fan JL, Zhang X*. Comparison of subsidy schemes for carbon capture utilization and storage (CCUS) investmentbasedonreal option approach Evidence from China. Applied Energy, 2019, 255: 113828. (SCI,IF=8.848, JCR一区)[10]Yang L, Yang YT*. Evaluation of eco-efficiency in China from 1978 to 2016-Based on a modified ecological footprint model. Science of the Total Environment,2019, 662: 581-590.(SCI,IF=7.963, JCR一区)[11]Yang L, Yang YT, Zhang X, Tang K*.Whether China's industrial sectors make efforts to reduce CO2, emissions from production? -A decomposed decoupling analysis. Energy, 2018, 160 : 796-809. (SCI, IF=6.082, JCR一区)[12]Yang L, Zhang X*. Assessing regional eco-efficiency from the perspective of resource, environmental and economic performance in China: A bootstrapping approach in global data envelopment analysis. Journal of Cleaner Production, 2018, 173:100-111. (SCI,IF=7.246, JCR一区)[13]Yang L, TangK*, Wang ZH, An HZ, Fang W. Regional eco-efficiency and pollutants' marginal abatement costs in China: A parametric approach. Journal of Cleaner Production, 2017, 167(20): 619-629. (SCI, IF=7.246,JCR一区)[14]Yang L, Li FY,Zhang X*. Chinese companies’ awareness and perceptions of the Emissions Trading Scheme(ETS): Evidence from a national survey in China. Energy policy, 2016, 98: 254-265. (SSCI, IF=5.042, JCR一区)[15]Yang L, Zhang X*, McAlinden KJ. The effect of trust on people's acceptance of CCS (carbon capture and storage) technologies: Evidence from a survey in the People's Republic of China. Energy, 2016, 96: 69-79. (SCI, IF=6.082, JCR一区)[16]Yang L, Yao Y, Zhang JT, Zhang X*,McAlinden KJ. A CGE analysis of carbon market impact on CO2emission reduction in China:a technology-led approach. Natural Hazards, 2016,81(2): 1107-1128. (SCI, IF=2.427, JCR二区)[17]Tang K, Yang L*, Zhang JW. Estimating the regional total factor efficiency and pollutants’ marginal abatement costs in China:A parametric approach. Applied Energy, 2016, 184: 230-240. (SCI, IF=8.848, JCR一区)[18]LvHD*, Zhou JS, Yang L, Li YM, Liu L. An accounting of the external environmental costs of coal in Inner Mongolia using the pollution damage method.Environment developmentand Sustainability, 2020, 22,1299-1321.(SCI)[19]Fan JL,WangQ,Yang L, Zhang H,ZhangX.Determinant changes of consumer preference forNEVs in China: A comparison between 2012 and2017.International Journal of Hydrogen Energy, 2020, 45:23557-23575.(SCI)[20]Fan JL, Xu Mao, YangL, Zhang X, Li FY. How can carbon capture utilization and storagebe incentivized in China? A perspective based on the 45Q tax credit provisions. Energy Policy, 2019, 132:1229-1240.(SCI)[21]Fan JL, Wei SJ,Yang L, Zhang X. Comparison ofthe LCOE between coal-fired powerplants with CCS and main low-carbon generation technologies: Evidence from China. Energy, 2019, 176: 143-155. (SCI)[22]Fan JL, Xu M, Yang L, Zhang X. Benefit evaluation of investment in CCS retrofitting of coal-fired power plantsand PV power plants in Chinabased on real options. Renewable and Sustainable Energy Reviews, 2019, 115:109350. (SCI)[23]Fan JL, Xu M, Li FY, Yang L, Zhang X. Carbon capture and storage (CCS) retrofit potential of coal-fired power plants in China: The technology lock-in andcostoptimization perspective. Applied Energy, 2018, 229:326-334.(SCI)[24]FanJl, Shen S, Xu M, Yang Y, Yang L, Zhang X.Cost-benefit comparison of carbon capture, utilization, and storage retrofitted to different thermal power plants in Chinabased on realoptions approach.Advances in Climate Change Research. 2020. (SCI)[25]FanJL, Wei SJ,Zhang X, YangL. A comparison of the regional investment benefits of CCS retrofitting of coal-fired power plants and renewable power generation projects in China.International Journal of Greenhouse Gas Control, 2019. (SCI)[26]Wang ZH*, Yang L, Yin JH, Zhang B. Assessment and prediction of the environmental sustainable development in China based on the modified ecological footprint. Resource, Conservation and Recycling, 2018, 132: 301-313. (SCI)
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