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董康银 副教授、博士生导师 联系方式: 通讯地址:北京市朝阳区惠新东街10号博学楼1317 电子邮箱:dongkangyin@uibe.edu.cn 个人网站:https://dwz.cn/MNN1aZ74(Google Scholar);https://dwz.cn/YRgDQABm(Researchgate)
学术经历: 2021.12-至今 对外经济贸易大学国际经济贸易学院,副教授(破格晋升) 2019.08-2021.12 对外经济贸易大学国际经济贸易学院,讲师
教育背景: 2014.09-2019.06 中国石油大学(北京)经济管理学院,博士 2016.08-2018.08 美国罗格斯大学(Rutgers University),联合培养博士生 2012.09-2014.06 北京理工大学经济与管理学院,本科(双学位) 2010.09-2014.06 北京理工大学材料学院,本科
教授课程: 研究生:《能源与政治经济学专题》、《区域经济学》 本科生:《政治经济学原理》、《中国经济概论》、《新时代中国特色社会主义政治经济学》、《当代中国经济专题》
研究方向: 能源与环境经济学;气候变化经济学;能源战略与政策系统分析等
论文发表:(*表示通讯作者) 发表中、英文论文200余篇,以第一/通讯作者身份在Energy Economics、Energy Policy、World Development、The World Economy等能源与环境经济领域SSCI/SCI期刊发表论文140余篇,并在《中国人口·资源与环境》、《中国管理科学》、《系统工程理论与实践》等中文期刊发表论文20余篇;学术成果Google学术累计被引9000余次,40余篇文章入选ESI热点/高被引论文,并入选科睿唯安(Clarivate)全球高被引科学家、爱思唯尔(Elsevier)中国高被引学者、全球前10%经济学者(RePEc/IDEAS数据库)和全球前2%顶尖科学家榜单(斯坦福大学与Elsevier联合发布)。近期代表性论文如下: 1. Ren, X., Zeng, G., Dong, K*., Wang, K. How Does High-speed Rail Affect Tourism Development? The Case of the Sichuan-Chongqing Economic Circle. Transportation Research Part A: Policy and Practice, 2023, 169: 103588. (SSCI, Q1, IF: 6.4) 2. Dong, K., Jiang, Q., Liu, Y., Shen, Z., Vardanyan, M. Is energy aid allocated fairly? A global energy vulnerability perspective. World Development, 2023, 172: 106409. (SSCI, Q1, IF: 6.9) 3. Dong, K., Ni, G., Taghizadeh-Hesary, F., Zhao, C. Does smart transportation matter in inhibiting carbon inequality?. Energy Economics, 2023, 126: 106952. (SSCI, Q1, IF: 12.8) 4. Wang, J., Dong, K*., Taghizadeh-Hesary, F., Dong, X. Does industrial convergence mitigate CO2 emissions in China? A quasi-natural experiment on “Triple Play” Reform. Energy Economics, 2023. (forthcoming; SSCI, Q1, IF: 12.8) 5. Zhao, C., Dong, K*., Wang, K., Dong, X. Can low-carbon energy technology lead to energy resource carrying capacity improvement? The case of China. Energy Economics, 2023, 127: 107092. (SSCI, Q1, IF: 12.8) 6. Yang, S., Wang, J., Dong, K*., Jiang, Q. A Path towards China’s Energy Justice: How Does Digital Technology Innovation Bring about a Just Revolution?. Energy Economics, 2023, 127: 107056. (SSCI, Q1, IF: 12.8) 7. Jiang. H., Dong, K*., Qing, J., Teng, Q. The role of technical change in low-carbon transformation and crises in the electricity market: A CGE analysis with R&D investment. Energy Economics, 2023, 125: 106897. (SSCI, Q1, IF: 12.8) 8. Liu, Y., Dong, X., Dong, K*. Pathway to prosperity? The impact of low-carbon energy transition on China's common prosperity. Energy Economics, 2023, 124: 106819. (SSCI, Q1, IF: 12.8) 9. Zhao, C., Dong, K*., Jiang, H., Wang, K., Dong, X. How does energy poverty eradication realize the path to carbon unlocking? The case of China. Energy Economics, 2023, 121: 106691. (SSCI, Q1, IF: 12.8) 10. Liu, Y., Dong, K*., Jiang, Q. Assessing energy vulnerability and its impact on carbon emissions: A global case. Energy Economics, 2023, 119: 106557. (SSCI, Q1, IF: 12.8) 11. Zhao, J., Dong, K*., Taghizadeh-Hesary, F. Is income inequality a stumbling block to the global natural gas market?. Energy Economics, 2023, 118: 106520. (SSCI, Q1, IF: 12.8) 12. Zhao, C., Jia, R., Dong, K*. Does financial inclusion achieve the dual dividends of narrowing carbon inequality within cities and between cities? Empirical evidence from China. Technological Forecasting & Social Change, 2023, 195: 122774. (SSCI, Q1, IF: 12.0) 13. Zhao, C., Dong, K*., Dong, X. Is enhanced information and communication technology efficiency a powerful weapon for carbon unlocking? The case of China. Annals of Operations Research, 2023. (forthcoming; SCI, Q2, IF: 4.8) 14. Khan, Z., Badeeb, R., Zhang, C., Dong, K*. Financial Inclusion and Energy Efficiency: Examining the Role of Green Innovation and Human Capital for Malaysia. Applied Economics, 2023. (forthcoming; SSCI, Q2, IF: 2.2) 15. Ren, X., Dou, Y., Dong, K*., Yan, C. Spillover effects among crude oil, carbon, and stock markets: Evidence from nonparametric causality-in-quantiles tests. Applied Economics, 2023, 55(38): 4486-4509. (SSCI, Q2, IF: 2.2) 16. Wang, J., Zhao, J., Dong, K*., Dong, X. How does the internet economy affect CO2 emissions? Evidence from China. Applied Economics, 2023, 55(4): 447-466. (SSCI, Q2, IF: 2.2) 17. Zhao, C., Wang, K., Dong, K*. How does innovative city policy break carbon lock-in? A spatial difference-in-differences analysis for China. Cities, 2023, 136: 104249. (SSCI, Q1, IF: 6.7) 18. Dong, K*., Yang, S., Wang, J., Dong, X. Revisiting energy justice: Is renewable energy technology innovation a tool for realizing a just energy system? Energy Policy, 2023, 183: 113820. (SSCI/SCI, Q1, IF: 9.0) 19. Dong, K*., Wei, S., Liu, Y., Zhao, J. How does energy poverty eradication promote common prosperity in China? The role of labor productivity. Energy Policy, 2023, 181: 113698. (SSCI/SCI, Q1, IF: 9.0) 20. Wang, B., Wang, J., Dong, K*., Dong, X. Is the digital economy conducive to the development of renewable energy in Asia? Energy Policy, 2023, 173: 113381. (SSCI/SCI, Q1, IF: 9.0) 21. Dong, K., Jia, R., Zhao, C., Wang, K. Can smart transportation inhibit carbon lock-in? The case of China. Transport Policy, 2023, 142: 59-69. (SSCI, Q1, IF: 6.8) 22. Wang, J., Wang, K., Dong, K*., Zhang, S. Assessing the role of financial development in natural resource utilization efficiency: Does artificial intelligence technology matter?. Resources Policy, 2023, 85: 103877. (SSCI, Q1, IF: 10.2) 23. Zhao, C., Wang, J., Dong, K*., Wang, K. How does renewable energy encourage carbon unlocking? A global case for decarbonization. Resources Policy, 2023, 83: 103622. (SSCI, Q1, IF: 10.2) 24. Liu, Y., Wang, J., Dong, K*., Taghizadeh-Hesary, F. How does natural resource abundance affect green total factor productivity in the era of green finance? Global evidence. Resources Policy, 2023, 81: 103315. (SSCI, Q1, IF: 10.2) 25. Li, J., Dong, K*., Wang, K., Dong, X. How does natural resource dependence influence carbon emissions? The role of environmental regulation. Resources Policy, 2023, 80: 103268. (SSCI, Q1, IF: 10.2) 26. Deng, Y., Dong, K*., Taghizadeh-Hesary, F., Xue, J. How does environmental regulation affect the double dividend for energy firms? Evidence from China's EPT policy. Economic Analysis and Policy, 2023, 79: 807-820. (SSCI, Q1, IF: 6.5) 27. Liu, Y., Dong, K*., Taghizadeh-Hesary, F. How does energy aid mitigate the recipient countries’ carbon emissions?. Economic Analysis and Policy, 2023, 79: 359-375. (SSCI, Q1, IF: 6.5) 28. Liu, Y., Dong, K*., Wang, J., Taghizadeh-Hesary, F. Towards sustainable development goals: Does common prosperity contradict carbon reduction?. Economic Analysis and Policy, 2023, 79: 70-88. (SSCI, Q1, IF: 6.5) 29. Wang, J., Dong, K*., Wang, K. Towards green recovery: Platform economy and its impact on carbon emissions in China. Economic Analysis and Policy, 2023, 77: 969-987. (SSCI, Q1, IF: 6.5) 30. Zhao, C., Jia, R., Dong, K*. How does smart transportation technology promote green total factor productivity? The case of China. Research in Transportation Economics, 2023, 101: 101353. (SSCI, Q1, IF: 6.5) 31. Zhao, C., Dong, K*., Taghizadeh-Hesary, F. Can smart transportation enhance green development efficiency?. Economic Change and Restructuring, 2023, 56(02): 825-857. (SSCI, Q2, IF: 3.1) 32. Zhao, J., Dong, K*. Is environmental regulation a powerful weapon to mitigate China’s PM2.5 emissions? The role of human capital. Journal of Asian Economics, 2023, 87: 101634. (SSCI, Q2, IF: 3.2) 33. Liu, Y., Zhao, X., Dong, K*., Jiang, Q. Assessing the role of green finance in sustainable energy power utility investments: Evidence from China. Utilities Policy, 2023, 84: 101627. (SSCI/SCI, Q2, IF: 4.0) 34. Khan, Z., Raza, S., Dong, K*., Haouas, I. How do remittance inflows cause the Dutch disease in the financial sector? The role of financial risk and human capital. Annals of Financial Economics, 2023. (forthcoming; SSCI, Q2, IF: 2.0) 35. Zhao, J., Taghizadeh-Hesary, F., Dong, K*., Dong, X. How Green Growth Affects Carbon Emissions in China: The Role of Green Finance. Economic Research-Ekonomska Istraživanja, 2023, 36(01): 2090-2111. (SSCI, Q2, IF: 3.08) 36. Wang. J., Shahbaz, M., Dong, K*., Dong, X. Renewable energy transition in global carbon mitigation: Does the use of metallic minerals matter?. Renewable and Sustainable Energy Reviews, 2023, 181: 113320. (SCI, Q1, IF: 15.9) 37. Dong, K., Li, J., Zhang, H. LNG point supply of villages and towns in China: Challenges and countermeasures. Applied Energy, 2023, 334: 120741. (SCI, Q1, IF: 11.2) 38. Cheng, C., Dong, K*., Wang, Z., Liu, S., Jurasz, J., Zhang, H. Rethinking the evaluation of solar photovoltaic projects under YieldCo mode: A real option perspective. Applied Energy, 2023, 336: 120839. (SCI, Q1, IF: 11.2) 39. Zhao, C., Dong, K*, Wang, K., Taghizadeh-Hesary, F. How can Chinese cities escape from carbon lock-in? The role of low-carbon city policy. Urban Climate, 2023, 51: 101629. (SCI, Q1, IF: 6.4) 40. Dong, K., Yang, S., Wang, J. How digital economy lead to low-carbon development in China? The case of e-commerce city pilot reform. Journal of Cleaner Production, 2023, 391: 136177. (SCI, Q1, IF: 11.1) 41. Wang, J., Dong, X., Dong, K*. Does renewable energy technological innovation matter for green total factor productivity? Empirical evidence from Chinese provinces. Sustainable Energy Technologies and Assessments, 2023, 55: 102966. (SCI, Q2, IF: 8.0) 42. Dou, Y., Dong, K*., Jiang, Q., Shahbaz, M. How do natural disasters affect energy poverty? Evidence from a global perspective. The Singapore Economic Review, 2023, 68(04): 1115-1146. (SSCI, Q3, IF: 1.8) 43. Dong, K., Zhao, J., Taghizadeh-Hesary, F. Toward China’s green growth through boosting energy transition: The role of energy efficiency. Energy Efficiency, 2023, 16: 43. (SSCI/SCI, Q3, IF: 3.1) 44. Dou, Y., Dong, X., Dong, K*., Jiang, Q. How does financial inclusion promote low-carbon energy transition? The global case for natural gas. Energy Efficiency, 2023, 16: 28. (SSCI/SCI, Q3, IF: 3.1) 45. Zhao, C., Dong, K*., Taghizadeh-Hesary, F. Environmental assessment of hydrogen: Does hydrogen matter for environmental efficiency improvement? Energy Sources, Part B: Economics, Planning, and Policy, 2023, 18(1): 2196973. (SCI, Q3, IF: 3.9) 46. Dong, K., Zhao, J., Ren, X., Shi, Y. Environmental regulation, human capital, and pollutant emissions: The case of SO2 emissions for China. Journal of Chinese Economic and Business Studies, 2023, 21(1): 111-135. (SSCI, Q2, IF: 2.0) 47. Dong, K., Li, J., Dong, X. How Do Green Product Exports Affect Carbon Emissions? Evidence from China. Chinese Journal of Population, Resources and Environment, 2023, 21(2): 43-51. 48. Dong, K., Wang, J., Ren, X. Does Internet development have a spatial fluctuation spillover effect on green total factor productivity in China? A Spatial-SAR-ARCH model. Management of Environmental Quality, 2023, 34(3): 741-770. (SCI, Q2, IF: 5.3) 49. Zhao, C., Wang, J., Dong, K*., Dong, X. A blessing or a curse? Can digital economy development narrow carbon inequality in China?. Carbon Neutrality, 2023, 2: 15. 50. Zhao, J., Dong, K*., Taghizadeh-Hesary, F. Moving towards sustainable development: Can narrowing income inequality facilitate green growth in China?. Journal of Environmental Assessment Policy and Management, 2023, 25(02): 2350011. 51. Dong, K., Taghizadeh-Hesary, F., Zhao, J. How inclusive financial development eradicates energy poverty in China? The role of technological innovation. Energy Economics, 2022, 109: 106007. (SSCI, Q1, IF: 12.8) 52. Wang, J., Wang, K., Dong, K*., Shahbaz, M. How does the digital economy accelerate global energy justice? Mechanism discussion and empirical test. Energy Economics, 2022, 114: 106315. (SSCI, Q1, IF: 12.8) 53. Wang, J., Dong, K*., Dong, X., Taghizadeh-Hesary, F. Assessing the digital economy and its carbon-mitigation effects: The case of China. Energy Economics, 2022, 113: 106198. (SSCI, Q1, IF: 12.8) 54. Wang, J., Dong, X., Dong, K*. How does ICT agglomeration affect carbon emissions? The case of Yangtze River Delta urban agglomeration in China. Energy Economics, 2022, 111: 106107. (SSCI, Q1, IF: 12.8) 55. Wang, B., Zhao, J., Dong, K*., Jiang, Q. High-quality energy development in China: Comprehensive assessment and its impact on CO2 emissions. Energy Economics, 2022, 110: 106027. (SSCI, Q1, IF: 12.8) 56. Li, J., Dong, K*., Dong, X. Green energy as a new determinant of green growth in China: The role of green technological innovation. Energy Economics, 2022, 114: 106260. (SSCI, Q1, IF: 12.8) 57. Jiang, H., Liu, L., Dong, K*., Fu, Y. How will sectoral coverage in the carbon trading system affect the total oil consumption in China? A CGE-based analysis. Energy Economics, 2022, 110: 105996. (SSCI, Q1, IF: 12.8) 58. Zhao, C., Dong, K*., Wang, K., Dong, X. How does energy trilemma eradication reduce carbon emissions? The role of dual environmental regulation for China. Energy Economics, 2022, 116: 106418. (SSCI, Q1, IF: 12.8) 59. Zhao, C., Wang, K., Dong, X., Dong, K*. Is Smart Transportation Associated with Reduced Carbon Emissions? The Case of China. Energy Economics, 2022, 105: 105715. (SSCI, Q1, IF: 12.8) 60. Zhao, J., Dong, X., Dong, K*., Jiang, H. How does industrial structure adjustment reduce CO2 emissions? Spatial and mediation effects analysis for China. Energy Economics, 2022, 105: 105704. (SSCI, Q1, IF: 12.8) 61. Zhao, J., Dong, X., Dong, K*., Shahbaz, M., Kyriakou, I. Is green growth affected by financial risks? New global evidence from asymmetric and heterogeneous analysis. Energy Economics, 2022, 113: 106234. (SSCI, Q1, IF: 12.8) 62. Shahbaz, M., Li, J., Dong, X., Dong, K*. How financial inclusion affects the collaborative reduction of pollutant and carbon emissions: The case of China. Energy Economics, 2022, 107: 105847. (SSCI, Q1, IF: 12.8) 63. Dong, K., Dou, Y., Jiang, Q. Income inequality, energy poverty, and energy efficiency: Who cause who and how? Technological Forecasting & Social Change, 2022, 179: 121622. (SSCI, Q1, IF: 12.0) 64. Wang, J., Wang, B., Dong, K*., Dong, X. How does the digital economy improve high-quality energy development? The case of China. Technological Forecasting & Social Change, 2022, 184: 121960. (SSCI, Q1, IF: 12.0) 65. Zhao, J., Shahbaz, M., Dong, K*. How does energy poverty eradication promote green growth in China? The role of technological innovation. Technological Forecasting & Social Change, 2022, 175: 121384. (SSCI, Q1, IF: 12.0) 66. Ren, X., Dou, Y., Dong, K*., Li, Y. Information spillover and market connectedness: Multi-scale quantile-on-quantile analysis of the crude oil and carbon markets. Applied Economics, 2022, 54(38): 4465-4485. (SSCI, Q2, IF: 2.2) 67. Li, J., Dong, X., Dong, K*. Do pollutant discharge fees affect labor demand? Evidence from China’s industrial enterprises. Applied Economics, 2022, 54(2): 170-188. (SSCI, Q2, IF: 2.2) 68. Dong, K., Shahbaz, M., Zhao, J. How do pollution fees affect environmental quality in China? Energy Policy, 2022, 160: 112695. (SSCI/SCI, Q1, IF: 9.0) 69. Shahbaz, M., Wang. J., Dong, K*., Zhao, J. The impact of digital economy on energy transition across the globe: The mediating role of government governance. Renewable and Sustainable Energy Reviews, 2022, 166: 112620. (SCI, Q1, IF: 15.9) 70. Dong, K., Wang, J., Taghizadeh-Hesary F. Assessing the embodied CO2 emissions of ICT industry and its mitigation pathways under sustainable development: A global case. Applied Soft Computing, 2022, 131: 109760. (SCI, Q1, IF: 8.7) 71. Dong, K., Wang, B., Zhao, J., Taghizadeh-Hesary F. Mitigating carbon emissions by accelerating green growth in China. Economic Analysis and Policy, 2022, 75: 226-243. (SSCI, Q1, IF: 6.5) 72. Zhao, J., Wang, J., Dong, K*. The role of green finance in eradicating energy poverty: ways to realize green economic recovery in the post-COVID-19 era. Economic Change and Restructuring, 2022. (forthcoming; SSCI, Q2, IF: 3.1) 73. Li, J., Dong, K*., Dong, X., Shahbaz, M. How much does financial inclusion contribute to energy growth? The case of renewables for China. Renewable Energy, 2022, 198: 760-771. (SCI, Q1, IF: 8.7) 74. Li, J., Dong, K*., Taghizadeh-Hesary, F, Wang, K. 3G in China: How Green Economic Growth and Green Finance Promote Green Energy?. Renewable Energy, 2022, 200: 1327-1337. (SCI, Q1, IF: 8.7) 75. Zhao, J., Dong, K*., Dong, X., Shahbaz, M. How renewable energy alleviate energy poverty? A global analysis. Renewable Energy, 2022, 30: 467-477. (SCI, Q1, IF: 8.7) 76. Shahbaz, M., Rizvi, S., Dong, K*., Vo, X. Fiscal decentralization as new determinant of renewable energy demand in China: The role of income inequality and urbanization. Renewable Energy, 2022, 187: 68-80. (SCI, Q1, IF: 8.7) 77. Dong, K., Han, Y., Dou, Y., Shahbaz, M. Moving toward carbon neutrality: Assessing natural gas import security and its impact on CO2 emissions. Sustainable Development, 2022, 30(4): 751-770. (SSCI, Q1, IF: 12.5) 78. Sharif, A., Saqib, N., Dong, K., Khan, S. Nexus between green technology innovation, green financing, and CO2 emissions in the G7 countries: The moderating role of social globalization. Sustainable Development, 2022, 30(6): 1934-1946. (SSCI, Q1, IF: 12.5) 79. Wang, J., Dong, X., Dong, K*. How digital industries affect China’s carbon emissions? Analysis of the direct and indirect structural effects. Technology in Society, 2022, 68: 101911. (SSCI, Q1, IF: 9.2) 80. Wang, J., Zhao, J., Dong, K*., Dong, X. Is Financial Risk a Stumbling Block to the Development of Digital Economy? A Global Case. Emerging Markets Finance and Trade, 2022, 58(15): 4261-4270. (SSCI, Q1, IF: 4.0) 81. Li, J., Dong, X., Dong, K*. Green efficiency of natural gas and driving factors analysis: The role of the natural gas price in China. Energy Efficiency, 2022, 15(5): 24. (SSCI/SCI, Q3, IF: 3.1) 82. Ren, X., Li, Y., Shahbaz, M., Dong, K*., Lu, Z. Climate risk and corporate environmental performance: Empirical evidence from China. Sustainable Production and Consumption, 2022, 30: 467-477. (SSCI/SCI, Q1, IF: 12.1) 83. Li, J., Dong, X., Dong, K*. Is China’s Green Growth Possible? The Roles of Green Trade and Green Energy. Economic Research-Ekonomska Istraživanja, 2022, 35(1): 7084-7108. (SSCI, Q2, IF: 3.034) 84. Dou, Y., Shahbaz, M., Dong, K*., Dong, X. How natural disasters affect carbon emissions: The global case. Natural Hazards, 2022, 113: 1875-1901. (SCI, Q2, IF: 3.7) 85. Zhao, C., Taghizadeh-Hesary, F., Dong, K*., Dong, X. Breaking carbon lock-in: The role of green financial inclusion for China. Journal of Environmental Planning and Management, 2022. (forthcoming; SSCI, Q2, IF: 3.9) 86. Dou, Y., Dong, K*., Jiang, Q., Dong, X. How Does Trade Openness Affect Carbon Emission? New International Evidence. Journal of Environmental Assessment Policy and Management, 2022, 22 (03n04) 2250005. 87. Li, J., Dong, K*. How tourism development affects carbon emissions and ecological efficiency? The case of China. Journal of Environmental Assessment Policy and Management, 2022, 24 (04): 2250036. 88. Ren, X., Qin, J., Dong, K*. How does climate policy uncertainty affect excessive corporate debt? The case of China. Journal of Environmental Assessment Policy and Management, 2022, 24(02): 2250025. 89. Zhao, C., Dong, X., Dong, K*. Quantifying the energy trilemma in China and assessing its nexus with smart transportation. Smart and Resilient Transportation, 2022, 4(2): 78-104. 90. Dong, K., Jiang, Q., Shahbaz, M., Zhao, J. Does low-carbon energy transition mitigate energy poverty? The case of natural gas for China. Energy Economics, 2021, 99: 105324. (SSCI, Q1, IF: 12.8) 91. Dong, K., Ren, X., Zhao, J. How does low-carbon energy transition alleviate energy poverty in China? A nonparametric panel causality analysis. Energy Economics, 2021, 103: 105620. (SSCI, Q1, IF: 12.8) 92. Dong, K., Dong, X., Jiang, Q., Zhao, J. Assessing energy resilience and its greenhouse effect: A global perspective. Energy Economics, 2021, 104: 105659. (SSCI, Q1, IF: 12.8) 93. Zhao, J., Jiang, Q., Dong, X., Dong, K*. Assessing energy poverty and its effect on CO2 emissions: The case of China. Energy Economics, 2021, 97: 105191. (SSCI, Q1, IF: 12.8) 94. Khan, Z., Ali, S., Dong, K*., Li, R. How does fiscal decentralization affect CO2 emissions? The roles of institutions and human capital. Energy Economics, 2021, 94: 105060. (SSCI, Q1, IF: 12.8) 95. Dou, Y., Zhao, J., Dong, X., Dong, K*. Quantifying the impacts of energy inequality on carbon emissions in China: A household-level analysis. Energy Economics, 2021, 102: 105502. (SSCI, Q1, IF: 12.8) 96. Zhao, J., Dong, X., Dong, K*. Can agglomeration of producer services reduce urban-rural income inequality? The case of China. Australian Economic Papers, 2021, 60(4): 736-762. (SSCI, Q3, IF: 1.9) 97. Zhao, J., Jiang, Q., Dong, K*. Income inequality and natural gas consumption in China: Do heterogeneous and threshold effects exist? Australian Economic Papers, 2021, 60(4): 630-650. (SSCI, Q3, IF: 1.9) 98. Dong, K., Dong, X., Jiang, Q., Zhao, J. Valuing the greenhouse effect of political risks: the global case. Applied Economics, 2021, 53 (31): 3604-3618. (SSCI, Q2, IF: 2.2) 99. Wang, J., Dong, X., Dong, K*. How renewable energy reduces CO2 emissions? Decoupling and decomposition analysis for 25 countries along the Belt and Road. Applied Economics, 2021, 53 (40): 4597-4613. (SSCI, Q2, IF: 2.2) 100. Khan, Z., Muntasir, M., Dong, K*., Yang, S. The roles of export diversification and composite country risks in carbon emissions abatement: Evidence from the signatories of the Regional Comprehensive Economic Partnership agreement. Applied Economics, 2021, 53 (41): 4769-4787. (SSCI, Q2, IF: 2.2) 101. Shahbaz, M., Destek, M.A., Dong, K*, Jiao Z.L. Time-varying impact of financial development on carbon emissions in G-7 countries: Evidence from the long history. Technological Forecasting & Social Change, 2021, 171: 120966. (SSCI, Q1, IF: 12.0) 102. Zhao, J., Shahbaz, M., Dong, X., Dong, K*. How does financial risk affect global CO2 emissions? The role of technological innovation. Technological Forecasting & Social Change, 2021, 168: 120751. (SSCI, Q1, IF: 12.0) 103. Wang, J., Jiang, Q., Dong, X., Dong, K*. Decoupling and decomposition analysis of investments and CO2 emissions in information and communication technology sector. Applied Energy, 2021, 302: 117618. (SCI, Q1, IF: 11.2) 104. Dou, Y., Zhao, J., Malik, M,N., Dong, K*. Assessing the impact of trade openness on CO2 emissions: Evidence from China-Japan-ROK FTA countries. Journal of Environmental Management, 2021, 296: 113241. (SCI, Q1, IF: 8.7) 105. Liu, G., Dong, X., Kong, Z., Dong, K*. Does national air quality monitoring reduce local air pollution? The case of PM2.5 for China. Journal of Environmental Management, 2021, 296: 113232. (SCI, Q1, IF: 8.7) 106. Cheng, C., Ren, X., Dong, K*., Dong, X., Wang, Z. How does technological innovation mitigate CO2 emissions in OECD countries? Heterogeneous analysis using panel quantile regression. Journal of Environmental Management, 2021, 280: 111818. (SCI, Q1, IF: 8.7) 107. Zhao, J., Dong, X., Dong, K*. How does producer services’ agglomeration promote carbon reduction?: The case of China. Economic Modelling, 2021, 104: 105624. (SSCI, Q1, IF: 4.7) 108. Li, J., Dong, X., Jiang, Q., Dong, K*., Liu, G. Natural gas trade network of countries and regions along the Belt and Road: Where to go in the future? Resources Policy, 2021, 71: 101981. (SSCI, Q1, IF: 10.2) 109. Li, H., Dong, X., Jiang, Q., Dong, K*. Policy analysis for high-speed rail in China: Evolution, evaluation, and expectation. Transport Policy, 2021, 106: 37-53. (SSCI, Q1, IF: 6.8) 110. Xu, B., Sharif, A., Shahbaz, M., Dong, K*. Have electric vehicles effectively addressed CO2 emissions? Analysis of eight leading countries using quantile-on-quantile regression approach. Sustainable Production and Consumption, 2021, 27: 1205-1214. (SSCI/SCI, Q1, IF: 12.1) 111. Li, H., Shahbaz, M., Jiang, H., Dong, K*. Is natural gas consumption mitigating air pollution? Fresh evidence from national and regional analysis in China. Sustainable Production and Consumption, 2021, 27: 325-336. (SSCI/SCI, Q1, IF: 12.1) 112. Dong, K., Dong, X., Ren, X. Can expanding natural gas infrastructure mitigate CO2 emissions? Analysis of heterogeneous and mediation effects for China. Energy Economics, 2020, 90: 104830. (SSCI, Q1, IF: 12.8) 113. Jiang, H., Dong, X., Jiang, Q., Dong, K*. What drives China's natural gas consumption? Analysis of national and regional estimates. Energy Economics, 2020, 87: 104744. (SSCI, Q1, IF: 12.8) 114. Zhao, J., Jiang, Q., Dong, X., Dong, K*. Would environmental regulation improve the greenhouse gas benefits of natural gas use? A Chinese case study. Energy Economics, 2020, 87: 104712. (SSCI, Q1, IF: 12.8) 115. Dong, K., Dong, X., Jiang, Q. How renewable energy consumption lower global CO2 emissions? Evidence from countries with different income levels. The World Economy, 2020, 43 (6): 1665-1698. (SSCI, Q2, IF: 2.5) 116. Wang, J., Dong, X., Qiao, H., Dong, K*. Impact assessment of agriculture, energy, and water on CO2 emissions in China: Untangling the differences between major and non-major grain-producing areas. Applied Economics, 2020, 52(60): 6482-6497. (SSCI, Q2, IF: 2.2) 117. Kong, X., Dong, K*, Zhang, L. Characteristics and determinants of asymmetric phase shifts in China’s manufacturing industrial production cycles. Applied Economics, 2020, 52(22): 2366-2376. (SSCI, Q2, IF: 2.2) 118. Dong, K., Hochman, G., Timilsina, G. Do drivers of CO2 emission growth alter overtime and by the stage of economic development? Energy Policy, 2020, 140: 111420. (SSCI/SCI, Q1, IF: 9.0) 119. Wang, Z., Jiang, Q., Dong, K*, Mubarik, M., Dong, X. Decomposition of the US CO2 emissions and its mitigation potential: An aggregate and sectoral analysis. Energy Policy, 2020, 147: 111925. (SSCI/SCI, Q1, IF: 9.0) 120. Qiao, H., Chen, S., Dong, X., Dong, K*. Has China's coal consumption actually reached its peak? National and regional analysis considering cross-sectional dependence and heterogeneity. Energy Economics, 2019, 84: 104509. (SSCI, Q1, IF: 12.8) 121. Dong, K., Dong, X., Dong, C. Determinants of the global and regional CO2 emissions: What causes what and where?. Applied Economics, 2019, 51(46): 5031-5044. (SSCI, Q2, IF: 2.2) 122. Dong, K., Jiang, H., Sun, R., Dong, X. Driving forces and mitigation potential of global CO2 emissions from 1980 through 2030: Evidence from countries with different income levels. Science of the Total Environment, 2019, 649: 335-343. (SCI, Q1, IF: 9.8) 123. Wang, J., Dong, K*. What drives environmental degradation? Evidence from 14 Sub-Saharan African countries. Science of the Total Environment, 2019, 656: 165-173. (SCI, Q1, IF: 9.8) 124. Qiao, H., Zheng, F., Jiang, H., Dong, K*. The greenhouse effect of the agriculture-economic growth-renewable energy nexus: Evidence from G20 countries. Science of the Total Environment, 2019, 671: 722-731. (SCI, Q1, IF: 9.8) 125. Xu, B., Zhong, R., Hochman, G., Dong, K*. The environmental consequences of fossil fuels in China: National and regional perspectives. Sustainable Development, 2019, 27: 826-837. (SSCI, Q1, IF: 12.5) 126. Dong, K., Hochman, G., Kong, X., Sun, R., Wang, Z. Spatial econometric analysis of China’s PM10 pollution and its influential factors: Evidence from the provincial level. Ecological Indicators, 2019, 96: 317-328. (SCI, Q2, IF: 6.9) 127. Dong, K., Dong, X., Sun, R. How did the price and income elasticities of natural gas demand in China evolve from 1999 to 2015? The role of natural gas price reform. Petroleum Science, 2019, 16: 685-700. (Cover paper; SCI, Q1, IF: 5.6; 中国科技期刊卓越行动计划领军期刊) 128. Dong, K., Hochman, G., Zhang, Y., Sun, R., Li, H., Liao, H. CO2 emissions, economic and population growth, and renewable energy: Empirical evidence across regions. Energy Economics, 2018, 75: 180-192. (SSCI, Q1, IF: 12.8) 129. Dong, K., Sun, R., Wu, J., Hochman, G. The growth and development of natural gas supply chains: The case of China and the US. Energy Policy, 2018, 123: 64-71. (SSCI/SCI, Q1, IF: 9.0) 130. Dong, K., Sun, R., Li, H., Liao, H. Does natural gas consumption mitigate CO2 emissions: Testing the environmental Kuznets curve hypothesis for 14 Asia-Pacific countries. Renewable and Sustainable Energy Reviews, 2018, 94: 419-429. (SCI, Q1, IF: 15.9) 131. Dong, K., Sun, R., Hochman, G., Li, H. Energy intensity and energy conservation potential in China: A regional comparison perspective. Energy, 2018, 155: 782-795. (SCI, Q1, IF: 9.0) 132. Dong, K., Sun, R., Dong, X. CO2 emissions, natural gas and renewables, economic growth: Assessing the evidence from China. Science of the Total Environment, 2018, 640: 293-302. (SCI, Q1, IF: 9.8) 133. Dong, K., Sun, R., Jiang, H., Zeng, X. CO2 emissions, economic growth, and the environmental Kuznets curve in China: What roles can nuclear energy and renewable energy play? Journal of Cleaner Production, 2018, 196: 51-63. (SCI, Q1, IF: 11.1) 134. Dong, K., Sun, R., Dong, C., Li, H., Zeng, X., Ni, G. Environmental Kuznets curve for PM2.5 emissions in Beijing, China: What role can natural gas consumption play? Ecological Indicators, 2018, 93: 591-601. (SCI, Q2, IF: 6.9) 135. Dong, K., Zeng, X. Public willingness to pay for urban smog mitigation and its determinants: A case study of Beijing, China. Atmospheric Environment, 2018, 173: 355-363. (SCI, Q1, IF: 5.0) 136. Dong, K., Hochman, G., Timilsina, G. Are driving forces of CO2 emissions different across countries?: Insights from identity and econometric analyses. Policy Research Working Paper; 2018, No. 8477. World Bank, Washington, DC. https://openknowledge.worldbank.org/handle/10986/29930. 137. Dong, K., Sun, R., Hochman, G. Do natural gas and renewable energy consumption lead to less CO2 emission? Empirical evidence from a panel of BRICS countries. Energy, 2017, 141: 1466-1478. (SCI, Q1, IF: 9.0) 138. Dong, K., Sun, R., Hochman, G., Zeng, X., Li, H., Jiang, H. Impact of natural gas consumption on CO2 emissions: Panel data evidence from China’s provinces. Journal of Cleaner Production, 2017, 162: 400-410. (SCI, Q1, IF: 11.1) 139. Dong, K., Sun, R., Li, H., Jiang, H. A review of China’s energy consumption structure and outlook based on a long-range energy alternatives modeling tool. Petroleum Science, 2017, 14: 214-227. (2019 High Impact Paper; SCI, Q1, IF: 5.6; 中国科技期刊卓越行动计划领军期刊) 140. Dong, K., Sun, R., Li, H., Zheng, S., Yuan, B., Chung, K. Weaker demand outlook, heightened regulations create uncertainty for Chinese refiners. Oil & Gas Journal, 2016, 114: 63-67. (SCI, Q4, IF: 0.1) 141. 程承, 安润飞, 董康银*等. 碳交易机制引导下可再生能源发电企业创新策略研究——基于演化博弈视角. 中国管理科学, 2023. (已录用) 142. 董康银, 王建达, 张伟玉, 董秀成. 大国气候博弈的中国经济与生态环境效应评估. 中国人口·资源与环境, 2023, 33(9): 14-25. 143. 董康银, 董秀成. 大国气候博弈对数字经济发展及“碳中和”进程影响研究. 生态经济, 2023, 39(02): 34-40. 144. 董康银, 王建达, 蒋庆哲. 数字技术创新对碳排放强度的影响研究——基于数字技术专利检索分析. 环境经济研究, 2023, 8(02): 22-41. 145. 董康银, 赵君, 董秀成. 中国对外直接投资对东道国碳排放效应研究:基于空间溢出视角. 工业技术经济, 2023, 42(07): 133-142. 146. 吕越, 于喆宁, 陈泳昌, 董康银. 制造业服务化与就业——基于动态空间面板模型的分析. 经济与管理研究, 2023, 44(01): 93-110. 147. 董康银, 孔朝阳. 高校课程思政建设的思政元素挖掘与应用分析研究——以《当代中国经济专题》为例. 中文科技期刊数据库(全文版)教育科学, 2023, 07: 68-71. 148. 姜洪殿, 杨倩如, 董康银*. 中国电力行业低碳转型政策的经济-能源-环境影响. 中国人口·资源与环境, 2022, 32(6): 30-40. 149. 王朝静, 董康银*, 董聪等. 信息不确定下川藏铁路防灾监测通信系统带宽资源动态配置优化研究. 系统工程理论与实践, 2021, 41(10): 2721-2732. 150. 董秀成, 董康银, 窦悦. 后疫情时代全球能源格局演进和重塑路径研究. 中外能源, 2021, 26(03): 1-6. 151. 董秀成, 董康银, 王建达. 新冠疫情背景下全球油气产业分析及未来展望. 中外能源, 2021, 26(02): 1-6. 152. 董康银, 孙仁金. 价格规制对天然气需求弹性的影响——以北京地区为例. 天然气与石油, 2018, 36: 110-117. 153. 董康银, 孙仁金, 郝鸿毅等. 天然气管道业务价值评估模型及应用. 天然气工业, 2016, 36: 129-134. 154. 董康银, 孙仁金, 李慧. 中国天然气消费结构转变及对策. 科技管理研究, 2016, 36: 235-241. 155. 董康银, 姜洪殿, 李慧等. 基于结构方程模型的石油企业领导决策效率影响因素分析. 石油科学通报, 2016,1:522-530. 156. 董康银, 孙仁金, 李慧. 炼油企业循环经济综合评价方法研究. 生态经济, 2015, 31: 74-78. 157. 董康银, 孙仁金, 李慧等. 我国天然气价格改革构想研究——基于天然气产业链角度分析. 价格理论与实践, 2015, 10: 60-61. 158. 董康银, 孙仁金, 李慧等. 社会资本参与页岩气开发现状及对策. 天然气与石油, 2015, 33: 100-104.
著作/章节: 1. Dong, K., Zhao, J., Dong, X. Energy Poverty in China: Evaluation and Alleviation. Elsevier, Amsterdam, Netherlands. 2023年2月. https://doi.org/10.1016/C2022-0-01750-5. 2. Shahbaz, M., Dong, K., Balsalobre-Lorente, D., Gedikli, A. Recent Developments in Green Finance, Green Growth and Carbon Neutrality. Elsevier, Amsterdam, Netherlands. 2023年8月. https://doi.org/10.1016/C2022-0-01469-0. 3. Zhao, C., Dong, X., Dong, K*. “Renewable Energy, Carbon Emissions, and Economic Growth: The Comparison between EKC and RKC” in Economic Growth and Environmental Quality in a Post-Pandemic World. Routledge, London, UK. 2023年6月. https://doi.org/10.4324/9781003336563-5.
科研项目: 1. 教育部“春晖计划”合作科研项目:能源减贫实现我国双碳目标的机理、路径与对策研究,2023.05-2025.05. (主持) 2. 对外经济贸易大学2023年度中央高校教育教学改革专项:高等教育课程体系和教学内容改革研究——以《政治经济学原理》为例,2023.06-2024.06. (主持) 3. 对外经济贸易大学2023年度课程思政研究课题:课程思政建设路径与创新方法研究——以《当代中国经济专题》为例,2023.06-2024.06. (主持) 4. 北京市社会科学基金一般项目:新发展阶段推动能源产业高质量发展研究,2021.04-2023.04. (主持) 5. 中国石油集团安全环保技术研究院委托项目:国内外低碳政策分析研究,2022.01-2023.06. (主持) 6. 东盟与东亚经济研究所(ERIA;Economic Research Institute for ASEAN and East Asia)委托项目:The Role of Fintech on Renewable Energy in the Digital Era: The Case of China,2022.05-2023.04. (主持) 7. 中国石化出版社委托项目:后疫情时代全球能源格局的演化与中国能源安全,2020.11-2021.06. (主持) 8. 中国石油流通协会委托项目:后疫情时代,低油价国家应对策略,2020.11-2021.05. (主持) 9. 对外经济贸易大学中央高校基本科研业务费专项资金资助项目:中国天然气利用对碳排放的影响机理、作用程度及推进策略研究,2019.12-2021.04. (主持) 10. 国家社会科学基金重大研究专项项目:国际油气市场展望及对我影响研究,2022-2023. (参与;子课题负责人) 11. 国家社会科学基金重大研究专项项目:俄罗斯对华能源合作的战略考量与政策取向研究,2021-2023. (参与) 12. 北京市社会科学基金重点项目:城市减量发展下的商业领域城市更新实施路径研究,2021-2022. (参与) 13. 国家社会科学基金重大研究专项项目:‘一带一路’建设面临的主要风险及应对研究,2018-2020. (参与) 14. 中国石油集团科学技术研究院有限公司委托项目:中亚油气合作区管理模式研究,2019-2021. (参与) 15. 国家科技部创新方法工作专项项目:面向非常规油气资源开发工程的创新方法集成研究及示范,2018-2021. (参与) 16. 国家社会科学基金项目:我国能源价格市场化改革问题研究,2017-2019. (参与) 17. 国家能源局项目:我国油气下游竞争性环节改革试点研究,2017-2018. (参与) 18. 国家自然科学基金项目:中国天然气安全预警与应急系统研究,2013-2015. (参与) 19. 教育部哲学社会科学研究重大课题攻关项目:扩大我国油气战略储备研究,2012-2015. (参与)
智库服务: 1. 资政报告被中央领导(1篇)、正部级领导(3篇)和副部级领导(1篇)批示 2. 资政报告人民日报内参(2篇)、北京市委宣传部舆情处(1篇)、中央广播电视总台内参舆情中心(7篇)、中央网信办(1篇)、中信改革发展研究基金会(1篇)、中国石油流通协会(3篇)、国务院发展研究中心《经济要参》(1篇)、人民日报《思想理论动态参阅》(1篇)采纳 3. 接受人民网(6次)、中国社会科学网(1次)、中国能源报(1次)、中国贸易报(1次)、搜狐网(1次)采访 4. 4篇文章被联合国政府间气候变化专门委员会(IPCC)第六次评估报告正面引用,2022年
学术兼职: 1. 对外经济贸易大学中国能源经济研究中心(CCEER),执行主任 2. 中国石油企业协会碳中和专业委员会,副秘书长 3. 对外经济贸易大学中国国际碳中和经济研究院,院长助理 4. 对外经济贸易大学“一带一路”能源贸易与发展研究中心,研究员 5. 北京工商大学经济学院,特聘研究员 6. 碳排放权交易省部共建协同创新中心,特聘研究员 7. 《Energy Economics》副主编(SSCI, Q1, IF: 12.8) 8. 《Economic Analysis and Policy》副主编(SSCI, Q1, IF: 6.5) 9. 《Petroleum Science》副主编(SCI, Q1, IF: 5.6) 10. 《Journal of Economic Statistics》副主编 11. 《中国人口·资源与环境》学术编辑 12. 《Journal of Environmental Assessment Policy and Management》编委 13. 《Advances in Decision Sciences》编委 14. 《Petroleum Science》青年编委,2020-2022年(SCI, Q1, IF: 5.6) 15. 《石油科学通报》执行编委 16. 中国“双法”研究会能源经济与管理研究分会,理事 17. 北京能源与环境学会,理事 18. 国际能源经济学会(IAEE),会员 19. 加拿大经济学学会(CEA),会员 20. 中国系统工程学会,会员 21. 京津冀专家委员会,专家 22. 《Renewable & Sustainable Energy Reviews》客座编辑(SCI, Q1, IF: 15.9) 23. 《Energy》客座编辑(SCI, Q1, IF: 9.0) 24. 《Resources Policy》客座编辑(SSCI, Q1, IF: 10.2) 25. 《Economic Research-Ekonomska Istraživanja》客座编辑(SSCI, Q2, IF: 3.08) 26. 《Sustainable Energy Technologies and Assessments》客座编辑(SCI, Q2, IF: 8.0) 27. 《Frontiers in Psychology》客座编辑(SSCI, Q1, IF: 3.8) 28. 《Frontiers in Environmental Science》客座编辑(SCI, Q2, IF: 4.6) 29. 《Frontiers in Energy Research》客座编辑(SCI, Q3, IF: 3.4) 30. CUE2022-Applied Energy Symposium 2022国际会议session主席 31. CUE2020-Applied Energy Symposium 2020国际会议session主席 32. 担任《Nature Energy》、《Nature Climate Change》、《Nature Cities》、《Nature Communications》、《Joule》、《The Energy Journal》、《Energy Economics》、《Ecological Economics》、《Scientific Data》、《iScience》等150余份能源及环境领域国际期刊匿名审稿人,累计审稿1500余篇(数据来源:Publons)
荣誉奖励: 1. 2023年,入选爱思唯尔2022中国高被引学者 2. 2023年,入选RePEc/IDEAS全球前10%经济学者 3. 2023年,Wiley高被引论文奖 4. 2023年,Wiley Top Downloaded Article 5. 2023年,北京市高等教育学会国际政治研究分会第五届教学比赛二等奖 6. 2023年,第九届全国大学生能源经济学术创意大赛最佳指导教师奖 7. 2022年,入选科睿唯安2022全球高被引科学家 8. 2022年,入选爱思唯尔2021中国高被引学者 9. 2022年,对外经济贸易大学优秀硕士论文指导老师 10. 2022年,《Petroleum Science》优秀青年编委 11. 2021-2023年,入选斯坦福大学与Elsevier发布的全球前2%顶尖科学家榜单 12. 2021年,北京市高等教育学会国际政治研究分会2021年会优秀论文(一等奖) 13. 2021年,能源资源系统工程第六届学术年会优秀论文(三等奖) 14. 2021年,2020年中国石油大学(北京)优秀博士学位论文奖 15. 2021年,《Petroleum Science》2019高影响力论文奖 16. 2021年,《Petroleum Science》优秀青年编委 17. 2020年,入选对外经济贸易大学国际经济贸易学院青年学者培育计划 18. 2019年,北京市优秀毕业生 19. 2019年,第五届唐孝炎环境科学创新奖学金(二等奖) 20. 2019年,中国石油大学(北京)大学生科技创新之星 21. 2019年,石油石化企业管理现代化创新优秀著作二等奖(10/10) 22. 2018年,第二届中国石油大学(北京)十佳大学生 23. 2018年,孙越崎优秀学生奖学金 24. 2018年,春华菁英奖学金 25. 2018年,《Applied Energy》、《Energy》、《Science of the Total Environment》、《Energy Conversion and Management》及《Journal of Cleaner Production》杰出审稿人 26. 2017年,博士研究生国家奖学金 27. 2016年,第五届中国能源与资源“6+2”经济管理论坛 研究生优秀论文二等奖 28. 2015-2018年,中国石油大学(北京)科技创新先进个人、优秀研究生(连续四年) 更新于:2023年10月
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