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2. Decomposition of the US CO2 emissions and its mitigation potential: An aggregate and sectoral analysis. (2020). Dong, Xiucheng ; Mubarik, Muhammad Shujaat ; Jiang, Qingzhe ; Wang, Zhaojing.
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3. Do drivers of CO2 emission growth alter overtime and by the stage of economic development?. (2020). Dong, Kangyin ; Timilsina, Govinda R ; Hochman, Gal.
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1. The Spatiotemporal exploration of intercity transport energy efficiency in the mainland of China on the basis of improved stochastic frontier modelling. (2024). Shi, Ruolin ; Tao, Zhibin ; Feng, Xuesong.
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2. Exploring decoupling relationship between ICT investments and energy consumption in Chinas provinces: Factors and policy implications. (2024). Yuan, Rong ; Ge, Yihan.
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3. An Analysis of the Driving Factors Related to Energy Consumption in the Road Transport Sector of the City of Douala, Cameroon. (2023). Nguiya, Severin ; Mezoue, Cyrille Adiang ; Fouda, Bienvenu Gael ; Bissai, Fontaine Dubois.
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4. Comparative evaluation of CO2 emissions from transportation in countries around the world. (2023). Zhu, Lichao.
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5. Decoupling and decomposition analysis of carbon emissions in Beijing’s tourism traffic. (2022). , Jianchao ; Liu, Jiale ; Ma, Huiqiang.
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6. Decomposition Analysis of the Aggregate Carbon Intensity (ACI) of the Power Sector in Colombia—A Multi-Temporal Analysis. (2022). Rivera-Niquepa, Juan David ; Yusta, Jose M ; Rojas-Lozano, Daniela ; de Oliveira-De, Paulo M.
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7. Spatiotemporal Characteristics of the Correlation among Tourism, CO 2 Emissions, and Economic Growth in China. (2022). Cai, Rongrong ; Yi, Lin ; Chen, Lingling ; Yang, Hui.
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8. Energy Transition Scenarios for Fossil Fuel Rich Developing Countries under Constraints on Oil Availability: The Case of Ecuador. (2022). Ramirez, Paola ; Fontalvo, Javier ; Espinoza, Vicente Sebastian ; Mediavilla, Margarita ; Marti-Herrero, Jaime.
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9. Research on Carbon Emission Efficiency Measurement and Regional Difference Evaluation of China’s Regional Transportation Industry. (2022). Wang, Rong ; Zhao, Tong ; Xu, Guoyin.
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10. Analysis of Principal Factors on Energy Consumption of Expressway Service Buildings. (2022). Rong, Xian ; Jiao, Lichao.
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11. Analysis of Shanxi Provinces energy consumption and intensity using input-output framework (2002–2017). (2022). Cong, Jianhui ; Yang, Jun ; Su, Bin ; Zhang, Xiaomei.
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12. Research on the driving effect of production electricity consumption changes in the Yangtze River Economic Zone - Based on regional and industrial perspectives. (2022). Pang, Qinghua ; Zhang, Chenjun ; Zhao, YI ; Shi, Changfeng ; Li, Ang ; Chen, Qiyong.
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13. Reducing the carbon intensity of international shipping – The impact of energy efficiency measures. (2022). Ni, Xin ; Goh, Tian ; Sou, Weng Sut ; Chai, Kah-Hin ; Ng, Szu Hui.
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18. Industrial Electrification and Efficiency: Decomposition Evidence from the Korean Industrial Sector. (2021). Jin, Taeyoung ; Park, Jiyong ; Woo, Jongroul ; Lee, Sungin.
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19. Complete decomposition analysis of CO2 emissions intensity in the transport sector in Europe. (2021). Neves, Ana ; Robaina, Margarita.
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20. A hybrid approach for examining the drivers of energy consumption in Shanghai. (2021). Li, Danzhou ; Wang, Yueqiang ; Zeng, Weiliang ; Luo, Yulong ; Zhang, Hua ; Hu, Xianbiao.
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21. Challenges in the CO2 emissions of the Turkish power sector: Evidence from a two-level decomposition approach. (2021). Sarica, Kemal ; Isik, Mine.
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22. A decomposing analysis of productive and residential energy consumption in Beijing. (2021). Guangwen, HU ; Xianzhong, MU ; Li, Kong.
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23. Energy efficiency in South Asia: Trends and determinants. (2021). Goswami, Binoy ; Jain, Princy.
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24. The material metabolism characteristics and growth patterns of the central cities of Chinas Beijing-Tianjin-Hebei region. (2021). Zhang, Yan ; Liu, Ningyin ; Fath, Brian D.
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25. Decomposition Analysis and Trend Prediction of CO 2 Emissions in China’s Transportation Industry. (2020). Meng, Ming ; Li, Manyu.
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26. Sectoral Decomposition of Korea’s Energy Consumption by Global Value Chain Dimensions. (2020). Choi, Bongseok ; Jin, Taeyoung.
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27. Modelling the Non-Linear Energy Intensity Effect Based on a Quantile-on-Quantile Approach: The Case of Textiles Manufacturing in Asian Countries. (2020). Ww, Leonardus ; Kot, Sebastian ; Haseeb, Muhammad ; Sauga, Piotr.
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28. Driving forces of Turkeys transportation sector CO2 emissions: An LMDI approach. (2020). Ari, Izzet ; Sarica, Kemal ; Isik, Mine.
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29. Energy growth sources and future energy-saving potentials in passenger transportation sector in China. (2020). Nie, Hongguang ; Peng, Binbin ; Guo, Jian-Feng ; Xu, Jin-Hua ; Kemp, Rene.
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30. Factors influencing China’s non-residential power consumption: Estimation using the Kaya–LMDI methods. (2020). Lu, Yajing ; Wang, Qingming ; He, Guohua ; Zhu, Yongnan ; Jiang, Shan.
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31. Assessing energy efficiency improvements and related energy security and climate benefits in Finland: An ex post multi-sectoral decomposition analysis. (2020). Trotta, Gianluca.
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32. Investigation for the Decomposition of Carbon Emissions in the USA with C-D Function and LMDI Methods. (2019). Li, Rongrong ; Jiang, Rui ; Wu, Qiuhong.
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33. Uncovering CO 2 Emissions Patterns from China-Oriented International Maritime Transport: Decomposition and Decoupling Analysis. (2019). Ma, Xuefei ; Yang, Hualong.
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34. Energy consumption in the transportation sectors in China and the United States: A longitudinal comparative study. (2019). Wu, YA ; Zhang, Tao ; Zhong, Ling ; Zhu, Qianwen.
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35. Study of the influence mechanism of Chinas electricity consumption based on multi-period ST-LMDI model. (2019). Hao, Jian ; Fang, Debin.
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36. An alternative metafrontier framework for measuring the heterogeneity of technology. (2018). Wang, Qunwei ; Hu, Jin-Li ; Chiu, ching-ren ; Hang, YE.
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37. Investigating the Factors Influencing the Decoupling of Transport-Related Carbon Emissions from Turnover Volume in China. (2018). Jiang, Xueting ; Li, Rong Rong ; Su, Min.
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38. Toward the Coordinated Sustainable Development of Urban Water Resource Use and Economic Growth: An Empirical Analysis of Tianjin City, China. (2018). Li, Rongrong ; Wang, Shasha.
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39. The impact of air transportation, railways transportation, and port container traffic on energy demand, customs duty, and economic growth: Evidence from a panel of low-, middle-, and high -income coun. (2018). Ur, Haroon ; Saleem, Hummera ; Hishan, Sanil S ; Khan, Aqeel ; Gani, Showkat ; Shoukry, Alaa Mohamd ; Yousaf, Sheikh Usman ; Zaman, Khalid ; Siddique, Muhammad.
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40. Economic growth and transport energy consumption in the Latin American and Caribbean countries. (2018). Rehermann, F ; Pablo-Romero, M.
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41. Using the LMDI Decomposition Approach to Analyze the Influencing Factors of Carbon Emissions in Tunisian Transportation Sector. (2018). DALDOUL, MANEL ; Dakhlaoui, Ahlem.
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42. Analysis on the influencing factors of carbon emissions from energy consumption in China based on LMDI method. (2017). Kong, Qiuyue ; Yu, Yang.
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43. Chinese innovation-driving factors: regional structure, innovation effect, and economic development—empirical research based on panel data. (2017). Ma, Chaoliang ; Liu, Zhiying ; Chen, Xiafei.
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44. An Analysis of Decoupling and Influencing Factors of Carbon Emissions from the Transportation Sector in the Beijing-Tianjin-Hebei Area, China. (2017). Li, Rongrong ; Zhu, Xiaoping.
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45. Is energy consumption in the transport sector hampering both economic growth and the reduction of CO2 emissions? A disaggregated energy consumption analysis. (2017). Marques, António ; Fuinhas, José ; Neves, Sonia Almeida.
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46. Factors that Influence the Tourism Industrys Carbon Emissions: a Tourism Area Life Cycle Model Perspective. (2017). Tang, Chengcai ; Zhong, Linsheng.
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