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Impacts of international export on global and regional carbon intensity. (2019). Su, Bin ; Yang, Xue.
In: Applied Energy.
RePEc:eee:appene:v:253:y:2019:i:c:89.

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Cited: 19

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  2. Mechanism analysis of the influence of intelligent manufacturing on carbon emission intensity: evidence from cross country and industry. (2024). Geng, Wei ; Liu, Xiaoqian ; Liao, Xianchun.
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  3. What influences the performance of carbon emissions in China?—Research on the inter-provincial carbon emissions’ conditional configuration impacts. (2024). Cai, Quanling ; Li, Dongli ; Di, Kaisheng ; Liu, Caiping ; Wang, Mingxing ; Chen, Weidong.
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  4. Energy Intensity Forecasting Models for Manufacturing Industries of “Catching Up” Economies: Lithuanian Case. (2024). Bobinait, Viktorija ; Mikinis, Vaclovas ; Konstantinaviit, Inga ; Norvaia, Egidijus.
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  6. Assessment and Adjustment of Export Embodied Carbon Emissions with Its Domestic Spillover Effects: Case Study of Liaoning Province, China. (2022). Gao, Yuan ; Xu, Shuangjie ; Liu, Qian ; Zhang, Menghan ; Guo, Kexin ; Cheng, Hao.
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  7. Quantifying the Impact of Urban Form and Socio-Economic Development on China’s Carbon Emissions. (2022). Chen, Yulong ; Qu, Yang ; Meng, Xing ; Pan, Ping ; Huang, Lingfang.
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  8. Factor decomposition for global and national aggregate energy intensity change during 2000–2014. (2022). Su, Bin ; Yang, Xue ; Xu, HE.
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  9. Patterns and drivers of embodied carbon intensity in international exports: The role of trade and environmental policies. (2022). Su, Bin ; Goh, Tian ; Zhong, Sheng.
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  13. Climate Policies of G20 and New Threats for Russian Energy and Transportation Complex. (2021). Iosifov, Valeriy V ; Ratner, Pavel D.
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  14. Influential Factors Regarding Carbon Emission Intensity in China: A Spatial Econometric Analysis from a Provincial Perspective. (2020). Zheng, Zhi-Xue ; Meng, Shuo ; Xue, Li-Ming ; Liu, Lei ; Wang, Jia-Xing.
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  15. Does Chinas carbon regulatory policy improve total factor carbon efficiency? A fixed-effect panel stochastic frontier analysis. (2020). huang, xiaoqi ; Choi, Yongrok ; Tan, Xiujie ; Wang, Banban.
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  16. Spatial differences in energy performance among four municipalities of China: From both the aggregate and final demand perspectives. (2020). Su, Bin ; Yan, Junna.
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  17. Demand contributors and driving factors of Singapore’s aggregate carbon intensities. (2020). Su, Bin ; Ang, B.W. ; Wang, B.
    In: Energy Policy.
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  18. Embodied energy and intensity in China’s (normal and processing) exports and their driving forces, 2005-2015. (2020). Su, Bin ; Li, Yingzhu ; Ng, Tsan Sheng ; Zhu, Bangzhu.
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  19. China’s aggregate embodied CO2 emission intensity from 2007 to 2012: A multi-region multiplicative structural decomposition analysis. (2020). Su, Bin ; Wang, Zhenguo ; Xie, Rui ; Long, Haiyu.
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    RePEc:eee:eneeco:v:32:y:2010:i:1:p:186-193.

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  29. Decomposition analysis of the variations in residential electricity consumption in Brazil for the 1980-2007 period: Measuring the activity, intensity and structure effects. (2009). Schaeffer, Roberto ; Acho, Carla .
    In: Energy Policy.
    RePEc:eee:enepol:v:37:y:2009:i:12:p:5208-5220.

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  30. Comparative study on efficiency performance of listed coal mining companies in China and the US. (2009). Wu, JunJie ; Fang, Hong ; Zeng, Catherine.
    In: Energy Policy.
    RePEc:eee:enepol:v:37:y:2009:i:12:p:5140-5148.

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  31. Properties and linkages of some index decomposition analysis methods. (2009). Ang, B.W. ; Huang, H. C. ; Mu, A. R..
    In: Energy Policy.
    RePEc:eee:enepol:v:37:y:2009:i:11:p:4624-4632.

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  32. Accounting for early action in the European Union Emission Trading Scheme. (2009). Gallastegui, M. Carmen ; Arto, Iñaki ; Ansuategi, Alberto.
    In: Energy Policy.
    RePEc:eee:enepol:v:37:y:2009:i:10:p:3914-3924.

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  33. Structural path decomposition. (2009). Wood, Richard ; Lenzen, Manfred.
    In: Energy Economics.
    RePEc:eee:eneeco:v:31:y:2009:i:3:p:335-341.

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  34. Structural decomposition analysis of sources of decarbonizing economic development in China; 1992-2006. (2009). Zhang, Youguo .
    In: Ecological Economics.
    RePEc:eee:ecolec:v:68:y:2009:i:8-9:p:2399-2405.

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  35. Clarifying Poverty Decomposition. (2008). Muller, Adrian.
    In: Working Papers in Economics.
    RePEc:hhs:gunwpe:0217.

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  36. What goes down must come up? Trends of industrial electricity use in the North-West of Russia. (2008). Kinnunen, Miia ; Luukkanen, Jyrki ; Vehmas, Jarmo ; Korppoo, Anna.
    In: Energy Policy.
    RePEc:eee:enepol:v:36:y:2008:i:9:p:3588-3597.

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  37. Linear programming models for measuring economy-wide energy efficiency performance. (2008). Zhou, Peng ; Ang, B.W..
    In: Energy Policy.
    RePEc:eee:enepol:v:36:y:2008:i:8:p:2901-2906.

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  38. Consistent multi-level energy efficiency indicators and their policy implications. (2008). Bor, Yunchang.
    In: Energy Economics.
    RePEc:eee:eneeco:v:30:y:2008:i:5:p:2401-2419.

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  39. Putting decomposition of energy use and pollution on a firm footing - clarifications on the residual, zero and negative values and strategies to assess the performance of decomposition methods. (2007). Muller, Adrian.
    In: Working Papers in Economics.
    RePEc:hhs:gunwpe:0215.

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  40. Putting decomposition of energy use and pollution on a firm footing - clarifications on the residual, zero and negative values and strategies to assess the performance of decomposition methods. (2007). Muller, Adrian.
    In: Working Papers in Economics.
    RePEc:hhs:gunwpe:0213.

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  41. Decomposition and decoupling effects of carbon dioxide emission from highway transportation in Taiwan, Germany, Japan and South Korea. (2007). Lin, Sue J. ; Lu, I. J. ; Lewis, Charles.
    In: Energy Policy.
    RePEc:eee:enepol:v:35:y:2007:i:6:p:3226-3235.

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  42. Scenario-based analyses of energy system development and its environmental implications in Thailand. (2007). Malla, Sunil ; Shrestha, Ram M. ; LIYANAGE, MIGARA H..
    In: Energy Policy.
    RePEc:eee:enepol:v:35:y:2007:i:6:p:3179-3193.

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  43. Energy decomposition analysis: IEA model versus other methods. (2007). Ang, B.W. ; Liu, NA.
    In: Energy Policy.
    RePEc:eee:enepol:v:35:y:2007:i:3:p:1426-1432.

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  44. Negative-value problems of the logarithmic mean Divisia index decomposition approach. (2007). Ang, B.W. ; Liu, NA.
    In: Energy Policy.
    RePEc:eee:enepol:v:35:y:2007:i:1:p:739-742.

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  45. Calculating economy-wide energy intensity decline rate: The role of sectoral output and energy shares. (2007). Baksi, Soham ; Green, Chris.
    In: Energy Policy.
    RePEc:eee:enepol:v:35:y:2007:i:12:p:6457-6466.

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  46. Factors shaping aggregate energy intensity trend for industry: Energy intensity versus product mix. (2007). Ang, B.W. ; Liu, NA.
    In: Energy Economics.
    RePEc:eee:eneeco:v:29:y:2007:i:4:p:609-635.

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  47. Monitoring changes in economy-wide energy efficiency: From energy-GDP ratio to composite efficiency index. (2006). Ang, B.W..
    In: Energy Policy.
    RePEc:eee:enepol:v:34:y:2006:i:5:p:574-582.

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  48. Integrated resource planning in the power sector and economy-wide changes in environmental emissions. (2006). Shrestha, Ram M. ; Marpaung, Charles O. P., .
    In: Energy Policy.
    RePEc:eee:enepol:v:34:y:2006:i:18:p:3801-3811.

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  49. Decomposition of CO2 Emissions over 1980–2003 in Turkey. (2005). Lise, Wietze.
    In: Working Papers.
    RePEc:fem:femwpa:2005.24.

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  50. The LMDI approach to decomposition analysis: a practical guide. (2005). Ang, B.W..
    In: Energy Policy.
    RePEc:eee:enepol:v:33:y:2005:i:7:p:867-871.

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