SENIOR RESEARCH FELLOWS

Dr SU Bin (Division Head)
Biography
Research Interest
Research Highlights
Contact

Dr SU Bin (B. Su) is Senior Research Fellow and Head of Energy and the Environment Division at the Energy Studies Institute (ESI), National University of Singapore (NUS). He leads the energy modelling programme at the Institute and is actively involved in energy modelling related projects commissioned by government agencies. Dr Su is Programme Director for “Study on Singapore’s Energy and Decarbonization Pathways” funded by National Research Foundation and National Climate Change Secretariat, Singapore. He has managed and/or participated in more than 30 energy and environment projects funded by various government agencies and external parties. His research interests include energy and environmental systems modelling and analysis, focusing on energy efficiency, climate change, benchmarking, embodied energy/emissions, carbon footprint, carbon pricing, emissions trading, rebound effect and energy resilience.

Dr Su has served as Editor and Editorial Board Member of many international peer-reviewed journals, such as Editor of Energy Policy, Associate Editor of Energy Economics, Indonesian Journal of Energy, Energy and Climate Management, Editorial Board Member of Scientific Data, Reports on Economics and Finance, Chinese Journal of Population, Resources and Environment, Journal of Environmental Economics, Journal of China University of Petroleum, and Frontiers of Engineering Management, Guest Editor of Applied Energy (2017-2018), Journal of Cleaner Production (2018-2019), Energy Economics (2019-2021), and Frontiers of Engineering Management (2021-2022), and a referee for more than 100 international peer-reviewed journals. He has published more than 150 papers in international journals on energy and environmental issues, and edited the books on “China’s Energy Efficiency and Conservation” (Springer, 2016). He has been named in the global “Highly Cited Researchers” lists in year 2018-2023 released by Clarivate Analytics, Top 2% of Scientist in the Energy field by the Stanford Study in year 2019-2023, and Top 1% of Economists in the World by IDEAS/RePEc Database in year 2021-2023.

Google Scholar: http://scholar.google.com.sg/citations?user=sugnjwoAAAAJ&hl=en

Web of Science: https://www.webofscience.com/wos/author/record/941257  

Research.Com: https://research.com/u/bin-su

Global “Highly Cited Researchers List 2023” (Economics and Business category), NUS News in November 2023

https://news.nus.edu.sg/nus-scientists-among-the-worlds-most-influential-scholars/

https://esi.nus.edu.sg/highlights/details/esi-staff-named-highly-cited-researchers-2023

Global “Highly Cited Researchers List 2022” (Economics and Business category), NUS News in November 2022

https://news.nus.edu.sg/31-nus-scientists-ranked-among-worlds-most-highly-cited-researchers/  

https://esi.nus.edu.sg/highlights/details/two-esi-staff-named-in-the-world's-most-highly-cited-researchers-2022

Global “Highly Cited Researchers List 2021” (Economics and Business category), NUS News in November 2021

https://news.nus.edu.sg/32-nus-scientists-among-the-worlds-most-highly-cited-researchers/

https://esi.nus.edu.sg/highlights/details/two-esi-staff-named-in-the-world's-most-highly-cited-researchers-2021

Global “Highly Cited Researchers 2020” (Economics and Business category), NUS News in Nov 2020

https://news.nus.edu.sg/25-nus-researchers-rank-among-the-worlds-most-cited-scientists/  

https://esi.nus.edu.sg/highlights/details/esi-staff-named-highly-cited-researchers-2020

Global “Highly Cited Researchers 2019” (Economics and Business category), NUS News in Nov 2019

https://news.nus.edu.sg/research/27-nus-researchers-among-worlds-most-influential-scientific-minds  

https://esi.nus.edu.sg/highlights/details/esi-staff-named-highly-cited-researchers

Global “Highly Cited Researchers 2018” (Cross-field category), NUS News in Nov 2018

https://news.nus.edu.sg/press-releases/highly-cited-researchers-2018

- Energy economics and policy

- Energy and climate change

- Economic growth and the environment

- Modelling and analysis of large-scale energy systems

Referred Journal Articles

  1. Sun, Y.F., Zhang, Y.J.*, Su, B., 2024. How to improve the energy saving performance of China’s transport sector? An input-output perspective. Journal of Environmental Environment 356, 120635.
  2. Costa, A.*, Ng, T.S., Kang, J.D., Wu, Z.C., Su, B., 2024. Modelling fortification strategies for network resilience optimization: The case of immunization and mitigation. IISE Transactions 56(4), 411-423.
  3. Sun, Y.F., Su, B.*, Zhong, S., He, J.Y., Yu, S.W.*, 2024. Determinants of aggregated embodied carbon intensity in global bilateral exports by firm heterogeneity. Ecological Economics 218, 108099.
  4. Zhang, M.M., Nie, J.C., Su, B.*, Liu, L.Y., 2024. An option game model applicable to multi-agent cooperation investment in energy storage projects. Energy Economics 131, 107397.
  5. Cai, D., Zhang, G.X., Lai, K.H., Guo, C.X.*, Su, B., 2024. Government incentive contract design for carbon reduction innovation considering market value under asymmetric information. Energy Policy 186, 114009.
  6. Yang, G.L., Zhang, G.X., Zha, D.L.*, Gao, X.L., Su, B., 2024. China’s provincial-level sustainable energy transition requires accelerating renewable energy technological innovation. Energy 288, 129672.
  7. Nie, Y., Zhang, G.X.*, Zhong, L.H., Su, B., Xi, X., 2024. Urban-rural disparities in household energy and electricity consumption under the influence of electricity price reform policies. Energy Policy 184, 113868.
  8. Kang, J.D.*, Wu, Z.C., Ng, T.S., Su, B., 2023. A stochastic-robust optimization model for inter-regional power system planning. European Journal of Operational Research 310(3), 1234-1248.
  9. Su, B.*, Ang, B.W., 2023. Structural decomposition analysis applied to energy and emissions: Frameworks for monthly data. Energy Economics 126, 106977.
  10. Zhang, G.X., Shen, L.*, Su, B., 2023. Temperature change and daily urban-rural residential electricity consumption in Northwestern China: Responsiveness and inequality. Energy Economics 126, 106973.
  11. Song, P.P., Gu, Y.X., Su, B.*, Tanveer, A., Peng, Q., Gao, W.J., Wu, S.M., Zeng, S.H.*, 2023. The impact of green technology research and development (R&D) investment on performance: A case study of listed energy companies in Beijing, China. Sustainability 15(16), 12370.
  12. Chen, L.M., Zhao, Y.Y., Xie, R.*, Su, B., Liu, Y., Xv, R.F., 2023. Embodied energy intensity of global high energy consumption industries: A case study of the construction industry. Energy 277, 127628.
  13. Eldowma, I.A.*, Zhang, G.X., Su, B., 2023. The nexus between electricity consumption, carbon dioxide emissions, and economic growth in Sudan (1971-2019). Energy Policy 176, 113510.
  14. Sun, Y.F., Yu, S.W., Zhang, Y.J., Su, B.*, 2023. How do imports change the energy consumption of China? An analysis of its role in intermediate inputs and final demands. Energy 270, 126947.
  15. Li, Y.Z., Lin, Y.C., Su, B.*, 2023. Time-series analysis of the contributors and drivers of Zhejiang’s carbon emissions and intensity since China’s accession to the WTO. Environmental Science and Pollution Research 30(16), 46913-46932.
  16. Zhang, G.X., Yang, Y., Su, B., Nie, Y.*, Duan, H.B., 2023. Electricity production, power generation structure and air pollution: A monthly analysis for 279 cities in China (2015-2019). Energy Economics 120, 106597.
  17. Costa, A.*, Ng, T.S., Su, B., 2023. Long-term solar PV planning: An economic-driven robust optimization approach. Applied Energy 335, 120702.
  18. Yang, G.L., Zhang, G.X.*, Cao, D.Q.*, Zha, D.L.*, Su, B., 2023. China’s ambitious low-carbon goals require city-level renewable energy transition. iScience 26(3), 106263.
  19. Li, W., Wang, Q., Jin, B.H., Li, G.M.*, Su, B.*, 2023. Multiregional input-output analysis of carbon transfer in interprovincial trade and sectoral strategies for mitigation: Case study of Shanxi province in China. Journal of Cleaner Production 391, 136220.
  20. Zhong, S.*, Su, B., 2023. Assessing factors driving international trade in natural resources, 1995-2018. Journal of Cleaner Production 389, 136110.
  21. Gao, C.X., Tao, S., Su, B.*, Mensah, I.A., Sun, M.*, 2023. Exploring renewable energy trade coopetition relationships: Evidence from Belt and Road countries, 1996-2018. Renewable Energy 202, 196-209.
  22. Zhang, G.X.*, Han, J.L., Su, B., 2023. Contributions of cleaner production and end-of-pile treatment to NOx emissions and intensity reductions in China, 1997-2018. Journal of Environmental Management 326, 116822.
  23. Zhou, X.Y., Hang, Y., Zhou, D.Q., Ang, B.W., Wang, Q.W.*, Su, B.*, Zhou, P.*, 2022. Carbon-economic inequality in global ICT trade. iScience 25(12), 105604.
  24. Yao, X., Ma, S.C., Fan, Y., Zhu, L.*, Su, B.*, 2022. An investigation of battery storage operating strategies in power systems. Industrial Management & Data Systems 122(10), 2393-2415.
  25. Yan, J., Li, Y.Z., Su, B.*, Ng, T.S., 2022. Contributors and drivers of Chinese energy use and intensity from regional and demand perspectives, 2012-2015-2017. Energy Economics 115, 106357.
  26. Nie, Y., Zhang, G.X.*, Duan, H.B., Su, B., Feng, Y.C., Zhang, K.X., Gao, X.L., 2022. Trends in policy coordination research to support low-carbon energy development. Environmental Impact Assessment Review 97, 106903.
  27. Long, H., Xie, R., Gao, C.*, Sun, M., Su, B., 2022. Analysis of China’s regional differences in water consumption based on spatial structural decomposition analysis model. Science of the Total Environment 848, 157629.
  28. Zhong, S., Goh, T., Su, B.*, 2022. Patterns and drivers of embodied carbon intensity in international exports: The role of trade and environmental policies. Energy Economics 114, 106313.
  29. Zhang, Z.H.*, Zhang, G.X.*, Su, B., 2022. The spatial impacts of air pollution and socio-economic status on public health: Empirical evidence from China. Socio-Economic Planning Sciences 83, 101167.
  30. Li, G.*, Xu, D., Wang, Q., Li, W., Su, B.*, 2022. Contributors and drivers of Shanxi’s aggregate embodied carbon intensity (2002-2017) based on input-output and multiplicative structure decomposition analysis. Sustainable Energy Technologies and Assessments 53(B), 102536.
  31. Liu, N., Kang, J.D.*, Ng, T.S., Su, B., 2022. Cutting CO2 emissions through demand side regulation: Implications from multi-regional input-output linear programming model. Frontiers of Engineering Management 9(3), 452-461.
  32. Su, B.*, Ang. B.W., 2022. Improved granularity in input-output analysis of embodied energy and emissions: The use of monthly data. Energy Economics 113, 106245.
  33. Yang, X.*, Xu, H., Su, B., 2022. Factor decomposition for global and national aggregate energy intensity change during 2000-2014. Energy 254, 124347.
  34. Li, W.*, Xiang, B., Zhang, R., Li, G., Wang, Z., Su, B.*, Mahugbe, T., 2022. Impact of resource-based economic transformation policy on sulfur dioxide emissions: A case study of Shanxi province. Sustainability 14(14), 8253.
  35. Zhang, X.M.*, Su, B.*, Yang, J., Cong, J., 2022. Analysis of Shanxi province’s energy consumption and intensity using input-output framework (2002-2017). Energy 250, 123786.
  36. Sun, Y.F., Zhang, Y.J.*, Su, B.*, 2022. Impact of government subsidy on the optimal R&D and advertising investment in the cooperative supply chain of new energy vehicles. Energy Policy 164, 112885.
  37. Wang, E., Su, B.*, Zhong, S., Guo, Q.*, 2022. China’s embodied SO2 emissions and aggregate embodied SO2 intensity in its interprovincial and international trade. Technological Forecasting & Social Change 177, 121546.
  38. Sun, Y.F., Zhang, Y.J.*, Su, B., 2022. How does global transport sector improve the emissions reduction performance? A demand-side analysis. Applied Energy 311, 118648.
  39. Zhang, G.X.*, Gao, Y., Li, J.X., Su, B.*, Chen, Z.L., Lin, W.C., 2022. China’s environmental policy intensity for 1978-2019. Scientific Data 9, 75.
  40. Su, B.*, Ang, B.W., Sun, Y.F., 2022. Input-output analysis of embodied emissions: Impacts of imports data treatment on emission drivers. Energy Economics 107, 105875.
  41. Su, B.*, Goh, T., Ang, B.W., Ng, T.S., 2022. Energy consumption and energy efficiency trends in Singapore: The case of a meticulously planned city. Energy Policy 161, 112732.
  42. Zhang, G.X.*, Jiang, Y.Q., Su, B.*, Xiu, J., 2021. Environmental regulation, economic development and air pollution in the cities of China: Spatial econometric analysis based on policy scoring and satellite data. Journal of Cleaner Production 328, 129496.
  43. Kang, J.D.*, Ng, T.S., Su, B., Milovanoff, A., 2021. Electrifying light-duty passenger transport for CO2 emissions reduction: A stochastic-robust input-output linear programming model. Energy Economics 104, 105623.
  44. Zeng, S., Su, B.*, Zhang, M.L.*, Gao, Y., Liu, J., Luo, S., Tao, Q.M., 2021. Analysis and forecast of China’s energy consumption structure. Energy Policy 159, 112630.
  45. Liu, L.Y., Zhao, Z.Z., Su, B.*, Ng, T.S., Zhang, M.M., Qi, L., 2021. Structural breakpoints in the relationship between outward foreign direct investment and green innovation: An empirical study in China. Energy Economics 103, 105578.
  46. Wang, B.B., Tan, X.J.*, Wei, J., Su, B., 2021. The sectoral heterogeneous and time-varying price elasticities of energy demand in China. Energy Economics 102, 105486.
  47. Zhong, S.*, Su, B., 2021. Investigating ASEAN’s participation in global value chains: Production fragmentation and regional integration. Asian Development Review 38(2), 159-188.
  48. Gao, C.X., Tao, S.M., He, Y.Y., Su, B.*, Sun, M.*, Mensah, I.A., 2021. Effect of population migration on spatial carbon emission transfers in China. Energy Policy 156, 112450.
  49. Zhang, G.X., Nuruzzaman, M.*, Su, B., 2021. Nexus between household energy consumption and economic growth in Bangladesh (1975-2018). Energy Policy 156, 112420.
  50. Su, B.*, Ang, B.W., Liu, Y., 2021. Multi-region input-output analysis of embodied emissions and intensities: Spatial aggregation by linking regional and global datasets. Journal of Cleaner Production 313, 127894.
  51. Zhu, L., Li, L., Su, B.*, 2021. The price-bidding strategy for investors in a renewable auction: An option games-based study. Energy Economics 100, 105331.
  52. Xie, R.*, Niu, M., Su, B., Ge, J., 2021. Are global value chains merely global? The case of Chinese provinces in global value chains. Applied Economics 53(32), 3778-3794.
  53. Goh, T., Zhong, S.*, Ang, B.W., Su, B., Ng, S.H., Chai, K.H., 2021. Driving factors of changes in international maritime energy consumption: Microdata evidence 2014-2017. Energy Policy 154, 112288.
  54. Hang, Y., Wang, F., Su, B., Wang Y.Z., Zhang, W.*, Wang, Q.W.*, 2021. Multi-region multi-sector contributions to drivers of air pollution in China. Earth's Future 9(6), e2021EF002012.
  55. Zhou, D.Q.*, Ding, H.*, Wang, Q.W., Su, B., 2021. Literature review on renewable energy development and China’s roadmap. Frontiers of Engineering Management 8(2), 212-222.
  56. Zhong, S.*, Su, B., 2021. Assessing the effects of labor market dynamics on CO2 emissions in global value chains. Science of the Total Environment 768, 144486.
  57. Meng, F.Y., Su, B.*, Wang, Q.W., 2020. Meta-frontier-based assessment on carbon emission performance considering different mitigation strategies: Evidence from China’s manufacturing sectors. Journal of Cleaner Production 289, 125662.
  58. Zeng, S.H.*, Jia, J.M., Su, B.*, Jiang, C.X.*, Zeng, G.W., 2021. The volatility spillover effect of the European Union (EU) carbon financial market. Journal of Cleaner Production 282, 124394.
  59. Wang, G., Zhang, Q.*, Su, B., Li, Y., Li, Z.J., 2021. Coordination of tradable carbon emission permits market and renewable electricity certificates market in China. Energy Economics 93, 105038.
  60. Wang, Y.Z., Hang, Y., Wang, Q.W.*, Zhou, D.Q., Su, B.*, 2021. Cleaner production vs end-of-pipe treatment: Evidence from industrial SO2 emissions abatement in China. Journal of Environmental Management 277, 111429.
  61. Zhang, M.*, Li, H., Su, B., Yang, X., 2020. Using a new two-dimensional decoupling model to evaluate the decoupling state of global energy footprint. Sustainable Cities and Society 63, 102461.
  62. Li, W.*, Xu, D., Li. G.M., Su, B.*, 2020. Structural path and decomposition analysis of aggregate embodied energy intensities in China, 2012-2017. Journal of Cleaner Production 276, 124185.
  63. Zhang, C.*, Su, B., Zhou, K.L., Sun, Y., 2020. A multi-dimensional analysis of microeconomic factors on China’s industrial energy intensity (2000-2017). Energy Policy 147, 111836.
  64. Wang, L.F., Zhang, B., Xie, R.*, Su, B., 2020. The drivers of export value-added in China’s province: A multi-regional input-output model. Applied Economics 52(57), 6199-6214.
  65. Su, B.*, Ang, B.W., 2020. Demand contributors and driving factors of Singapore’s aggregate carbon intensities. Energy Policy 146, 111817.
  66. Liu, D., Zeng, X.M.*, Su, B., Wang, W.B., Sun, K., 2020. A social network analysis regarding electricity consumption and economic growth in China. Journal of Cleaner Production 274, 122973.
  67. Kang, J.D.*, Ng, T.S., Su, B., 2020. Optimizing electricity mix for CO2 emissions reduction: A robust input-output liner programming model. European Journal of Operational Research 287, 280-292.
  68. Zhu, B.Z., Su, B.*, Li, Y.Z., Ng, T.S., 2020. Embodied energy and intensity in China’s (normal and processing) exports and their driving forces, 2005-2015. Energy Economics 91, 104911.
  69. Zhao, L.X., Yang, C.X.*, Su, B., Zeng, S.H., 2020. Research on a single policy or policy mix in carbon emissions reduction. Journal of Cleaner Production 267, 122030.
  70. Yan, J.N., Su, B.*, 2020. Spatial differences in energy performance among four municipalities of China: From both the aggregate and final demand perspectives. Energy 204, 117915.
  71. Zhang, Z.H.*, Zhang, G.X.*, Song, S.F., Su, B., 2020. Spatial heterogeneity influences of environmental control and informal regulation on air pollutant emissions in China. International Journal of Environmental Research and Public Health 17(13), 4857.
  72. Yan, J.N., Su, B.*, 2020. What drive the changes in China’s energy consumption and intensity during 12th Five-Year Plan period? Energy Policy 140, 111383.
  73. Wang, H.Y., Su, B.*, Mu, H.L.*, Li, N., Gui, S., Duan, Y., Jiang, B., 2020. Optimal way to achieve renewable portfolio standard policy goals from electricity generation, transmission and trading perspectives in Southern China. Energy Policy 139, 111319.
  74. Song, Y., Sun, J., Zhang, M.*, Su, B., 2020. Using the Tapio-Z decoupling model to evaluate the decoupling status of China’s CO2 emissions at province level and its dynamic trend. Structural Change and Economic Dynamics 52, 120-129.
  75. Zhang, Y.J.*, Liu, J.Y., Su, B., 2020. Carbon congestion effects in China’s industry: Evidence from provincial and sectoral perspectives. Energy Economics 86, 104635.
  76. Kang, J.D.*, Ng, T.S., Su, B., Yuan, R., 2020. Optimizing the Chinese electricity mix for CO2 emissions reduction: An input-output linear programming model with endogenous capital. Environmental Science & Technology 54(2), 697-706.
  77. Zhu, B.Z.*, Zhang, M.F., Huang, L.Q., Wang, P.*, Su, B.*, Wei, Y.M., 2020. Exploring the effect of carbon trading mechanism on China’s green development efficiency: A novel integrated approach. Energy Economics 85, 104601.
  78. Zhou, X.Y., Zhou, D.Q., Wang, Q.W.*, Su, B., 2020. Who shapes China’s carbon intensity and how? A demand-side decomposition analysis. Energy Economics 85, 104600.
  79. Wang, Z.G., Su, B., Xie, R.*, Long, H.Y., 2020. China’s aggregate embodied CO2 emission intensity from 2007 to 2012: A multi-region multiplicative structural decomposition analysis. Energy Economics 85, 104568.
  80. Zhang, Z.H., Lu, X.*, Su, B.*, Zhao, Y.H., Wang, S., Liu, Y., Li, H., Zhang, Y.F., Ahmad, A., Shi, G., 2019. Evaluation of the energy, CO2 and value added flows embodied in the international trade of the BRICS group. Renewable and Sustainable Energy Review 116, 109432.
  81. Rao, G.M., Su, B., Li, J.L., Wang, Y.*, Zhou, Y.H.*, Wang, Z.L., 2019. Carbon sequestration total factor productivity growth and decomposition: A case of the Yangtze River Economic Belt of China. Sustainability 11 (23), 6809.
  82. Zhang, X.M.*, Su, B., Yang, J., Cong, J., 2019. Index decomposition and attribution analysis of aggregate energy intensity in Shanxi Province (2000-2015). Journal of Cleaner Production 238, 117897.
  83. Yuan, J., Victor Nian*, Su, B., 2019. Evaluation of cost-effective building retrofit strategies through a meta-model-based Bayesian method and a life cycle cost assessment method. Applied Energy 253, 113573.
  84. Yang, X.*, Su, B., 2019. Impacts of international export on global and regional carbon intensity. Applied Energy 253, 113552.
  85. He, P.J.*, Ng, T.S., Su, B., 2019. Energy resilience with multi-region input-output linear programming models. Energy Economics 84, 104569.
  86. Su, B.*, Ang, B.W., Li, Y.Z., 2019. Structural path and decomposition analysis of aggregate embodied energy and emission intensities. Energy Economics 83, 345-360.
  87. Hang, Y., Wang, Q.W.*, Wang, Y.Z., Su, B., Zhou, D.Q., 2019. Industrial SO2 emissions treatment in China: a temporal-spatial whole process decomposition analysis. Journal of Environmental Management 243, 419-434.
  88. Yang, X.*, Feng, K.S., Su, B., Zhang, W.Z., Huang, S., 2019. Environmental inefficiency and inequality embodied in China’s interregional trade. Science of the Total Environment 672, 150-161.
  89. Zhou, X.Y., Zhou, D.Q., Wang, Q.W.*, Su, B., 2019. How information and communication technology drives carbon emissions: A sector-level analysis for China. Energy Economics 81, 380-392.
  90. Zhang, C., Su, B., Zhou, K.*, Yang, S., 2019. Decomposition analysis of China’s CO2 emissions (2000-2016) and scenario analysis of its carbon intensity targets in 2020 and 2030. Science of the Total Environment 668, 432-442.
  91. Li, J., Zhang, D.Y., Su, B.*, 2019. The impact of social awareness and lifestyles on household carbon emissions in China. Ecological Economics 160, 145-155.
  92. Liu, N., Ma, Z.J., Kang, J.D.*, Su, B., 2019. A multi-region multi-sector decomposition and attribution analysis of aggregate carbon intensity in China from 2000 to 2015. Energy Policy 129, 410-421.
  93. Wang, H.Y., Su, B.*, Mu, H.L.*, Li, N., Jiang, B., Kong, X., 2019. Optimization of electricity generation and interprovincial trading strategies in Southern China. Energy 174, 696-707.
  94. Meng, F.Y., Su, B.*, Bai, Y., 2019. Rank reversal issues in DEA models for China’s regional energy efficiency assessment. Energy Efficiency 12(4), 993-1006.
  95. Zhang, C., Su, B., Zhou, K.*, Yang, S., 2019. Analysis of electricity consumption in China (1990-2016) using index decomposition and decoupling approach. Journal of Cleaner Production 209, 224-235.
  96. Dong, F.*, Wang, Y., Su, B., Hua, Y.*, Zhang, Y., 2019. The process of peak CO2 emissions in developed economies: A perspective of industrialization and urbanization. Resources, Conservation and Recycling 141, 61-75.
  97. Zhu, B.Z., Su, B.*, Li, Y.Z., 2018. Input-output and structural decomposition analysis of India’s carbon emissions and intensity, 2007/08-2013/14. Applied Energy 230, 1545-1556.
  98. Li, Y.Z., Su, B.*, Dasgupta, S., 2018. Structural path analysis of India’s carbon emissions using input-output and social accounting matrix frameworks. Energy Economics 76, 457-469.
  99. Yuan, J.N.*, Su, B., Liu, Y., 2018. Multiplicative structural decomposition and attribution analysis of carbon emission intensity in China, 2002-2012. Journal of Cleaner Production 198, 195-207.
  100. Zeng, S.H.*, Jiang, X.*, Su, B.*, Nan, X., 2018. China’s SO2 shadow prices and environmental technical efficiency at the provincial level. International Review of Economics & Finance 57, 86-102.
  101. Guo, J.F., Su, B., Yang, G., Feng, L.Y., Liu, Y.P., Gu, F.*, 2018. How do verified emissions announcements affect the co-movements between trading behaviours and carbon prices? An empirical big data study on the EU ETS. Sustainability 10(9), 3255.
  102. Tan, X.J., Liu, Y.*, Cui, J.B., Su, B., 2018. Assessment of carbon leakage by channels: An approach combining CGE model and decomposition analysis. Energy Economics 74, 535-545.
  103. Sheng, Y., Shi, X.P.*, Su, B., 2018. Re-analyzing the economic impact of a global bunker emissions charge. Energy Economics 74, 107-119.
  104. Dong, F.*, Bai, Z.F., Yu, B.L., Wang, Y., Zhang, S.N., Li, J.Y., Su, B., Long, R.Y.*, 2018. Can land urbanization help to achieve CO2 intensity reduction target or hinder it? Evidence from China. Resources Conservation and Recycling 134, 206-215.
  105. Gao, C.X., Su, B.*, Sun, M.*, Zhang, X.L., Zhang, Z.H., 2018. Interprovincial transfer of embodied primary energy in China: A complex network approach. Applied Energy 215, 792-807.
  106. Han, L.*, Han, B.T., Shi, X.P.*, Su, B., Lv, X., Lei, X., 2018. Energy efficiency convergence across countries in the context of China's belt and road initiative. Applied Energy 213, 112-122.
  107. Zeng, S.H.*, Jiang, C.X.*, Ma, C., Su, B.*, 2018. Investment efficiency of the new energy industry in China. Energy Economics 70, 536-544.
  108. Wang, Q.W., Hang, Y., Su, B.*, Zhou, P., 2018. Contributions to sector-level carbon intensity change: An integrated decomposition analysis. Energy Economics 70, 12-25.
  109. Goh, T.*, Ang, B.W., Su, B., Wang, H., 2018. Drivers of stagnating global carbon intensity of electricity and the way forward. Energy Policy 113, 149-156.
  110. Wang, H.*, Ang, B.W., Su, B., 2017. A multi-region structural decomposition analysis of global CO2 emission intensity. Ecological Economics 142, 163-176.
  111. Yuan, J., Nian, V.*, Su, B., Meng, Q., 2017. A simultaneous calibration and parameter ranking method for building energy models. Applied Energy 206, 657-666.
  112. Li, Y.Z.*, Shi, X.P., Su, B., 2017. Economic, social and environmental impacts of fuel subsidies: A revisit of Malaysia. Energy Policy 110, 51-61.
  113. Li, Y.Z., Su, B.*, 2017. The impacts of carbon pricing on coastal megacities: A CGE analysis of Singapore. Journal of Cleaner Production 165, 1239-1248.
  114. He, P.J., Ng, T.S.*, Su, B., 2017. Energy-economic recovery resilience with input-output linear programming models. Energy Economics 68, 177-191.
  115. Wang, H.*, Ang, B.W., Su, B., 2017. Assessing drivers of economy-wide energy use and emissions: IDA versus SDA. Energy Policy 107, 585-599.
  116. Su, B.*, Ang, B.W., 2017. Multiplicative structural decomposition analysis of aggregate embodied energy and emission intensities. Energy Economics 65, 137-147.
  117. Su, B.*, Ang, B.W., Li, Y.Z., 2017. Input-output and structural decomposition analysis of Singapore’s carbon emissions. Energy Policy 105, 484-492.
  118. Ju, K.Y.*, Su, B., Zhou, D.Q., Wu, J., 2017. Does energy-price regulation benefit China’s economy and environment? Evidence from energy-price distortions. Energy Policy 105, 108-119.
  119. Wang, H.*, Ang, B.W., Su, B., 2017. Multiplicative structural decomposition analysis of energy and emission intensities: Some methodological issues. Energy 123, 47-63.
  120. Zhang, Z.H., Zhao, Y.H.*, Su, B.*, Zhang, Y.F., Wang, S., Liu, Y., Li, H., 2017. Embodied carbon in China’s foreign trade: An online SCI-E and SSCI based literature review. Renewable and Sustainable Energy Review 68, 492-510.
  121. Zhang, Y.J.*, Peng, H.R., Su, B., 2017. The energy rebound effect in China’s industry: An aggregate and disaggregate analysis. Energy Economics 61, 199-208.
  122. Meng, F.Y., Su, B.*, Thomson, E., Zhou, D.Q., Zhou, P., 2016. Measuring China’s regional energy and carbon emission efficiency with DEA models: A survey. Applied Energy 183, 1-21.
  123. Ju, K.Y.*, Su, B., Zhou, D.Q., Wu, J., 2016. Macroeconomic performance of oil price shocks: Outlier evidence from nineteen major oil-related countries/regions. Energy Economics 60, 325-332.
  124. Ang, B.W., Su, B., Wang, H.*, 2016. A spatial-temporal decomposition approach to performance assessment in energy and emissions. Energy Economics 60, 112-121.
  125. Zhang, M.*, Su, B., 2016. Assessing China’s rural household energy sustainable development using improved grouped principal component method. Energy 113, 509-514.
  126. Su, B.*, Thomson, E., 2016. China’s carbon emissions embodied in (normal and processing) exports and their driving forces, 2006-2012. Energy Economics 59, 414-422.
  127. Su, B.*, Ang, B.W., 2016. Multi-region comparisons of emission performance: The structural decomposition analysis approach. Ecological Indicators 67, 78-87.
  128. Zeng, S.H.*, Hu, M.M, Su, B.*, 2016. Research on investment efficiency and policy recommendations for the culture industry of China based on a three-stage DEA. Sustainability 8(4), dio:10.3390/su8040324.
  129. Ang, B.W.*, Su, B., 2016. Carbon emission intensity in electricity production: A global analysis. Energy Policy 94, 56-63.
  130. Wang, Q.W., Su, B., Zhou, P., Chiu, C.R.*, 2016. Measuring total-factor CO2 emission performance and technology gaps using a non-radial directional distance function: A modified approach. Energy Economics 56, 475-482.
  131. Zhou, D.Q., Wang, Q.W.*, Su, B., Zhou, P., Yao, L.X., 2016. Industrial energy conservation and emission reduction performance in China: A city-level nonparametric analysis. Applied Energy 166, 201-209.
  132. Ju, K.Y.*, Su, B., Zhou, D.Q., Zhang, Y.Q., 2016. An incentive-oriented early warning system for predicting co-movements between oil price shocks and macroeconomy. Applied Energy 163, 452-463.
  133. Liu, T., Wang, Q.W.*, Su, B., 2016. A review of carbon labeling: Standards, implementation, and impact. Renewable and Sustainable Energy Reviews 53, 68-79.
  134. Zhang, M.*, Song, Y., Su, B., Sun, X., 2015. Decomposing the decoupling indicator between the economic growth and energy consumption in China. Energy Efficiency 8 (6), 1231-1239.
  135. Ju, K.Y.*, Su, B., Zhou, D.Q., Zhou, P., Zhang, Y.Q., 2015. Oil price crisis response: Capability assessment and key indicator identification. Energy 93, 1353-1360.
  136. Su, B.*, Ang, B.W., 2015. Multiplicative decomposition of aggregate carbon intensity change using input-output analysis. Applied Energy 154, 13-20.
  137. Ma, J.J., Liu, L.Q., Su, B., Xie, B.C.*, 2015. Exploring the critical factors and appropriate policies for reducing energy consumption of China’s urban civil building sector. Journal of Cleaner Production 103, 446-454.
  138. He, P.J., Ng, T.S.*, Su, B., 2015. Energy import resilience with input-output linear programming models. Energy Economics 50, 215-226.
  139. Wang, Q.W.*, Su, B., Sun, J., Zhou, P., Zhou, D.Q., 2015. Measurement and decomposition of energy-saving and emission reduction performance in Chinese cities. Applied Energy 151, 85-92.
  140. Ang, B.W., Xu, X.Y.*, Su, B., 2015. Multi-country comparisons of energy performance: The index decomposition analysis approach. Energy Economics 47, 68-76.
  141. Boey, A., Su, B.*, 2014. Low-carbon transport sectoral development and policy in Hong Kong and Singapore. Energy Procedia 61, 313-317.
  142. Soundararajan, K.*, Ho, H.K., Su, B., 2014. Sankey diagram framework for energy and exergy flows. Applied Energy 136, 1035-1042.
  143. Su, B.*, Ang, B.W., 2014. Attribution of changes in the generalized Fisher index with application to embodied emission studies. Energy 69, 778-786.
  144. Nian, V.J.*, Chou, S.K., Su, B., John, B., 2014. Life cycle analysis on carbon emissions from power generation – The nuclear energy example. Applied Energy 118, 68-82.
  145. Su, B.*, Ang, B.W., 2014. Input-output analysis of CO2 emissions embodied in trade: A multi-region model for China. Applied Energy 114, 377-384.
  146. Su, B.*, Ang, B.W., 2013. Input-output analysis of CO2 emissions embodied in trade: Competitive versus non-competitive imports. Energy Policy 56, 83-87.
  147. Su, B.*, Ang, B.W., Low, M., 2013. Input-output analysis of CO2 emissions embodied in trade and the driving forces: Processing and normal exports. Ecological Economics 88, 119-125.
  148. Su, B.*, Ang, B.W., 2012b. Structural decomposition analysis applied to energy and emissions: Aggregation issues. Economic Systems Research 24 (3), 299-317.
  149. Su, B.*, Ang, B.W., 2012a. Structural decomposition analysis applied to energy and emissions: Some methodological developments. Energy Economics 34 (1), 177-188.
  150. Su, B.*, Ang, B.W., 2011. Multi-region input-output analysis of CO2 emissions embodied in trade: The feedback effects. Ecological Economics 71, 42-53.
  151. Su, B.*, Ang, B.W., 2010. Input-output analysis of CO2 emissions embodied in trade: The effects of spatial aggregation. Ecological Economics 70 (1), 10-18.
  152. Su, B.*, Huang, H.C., Ang, B.W., Zhou, P., 2010. Input-output analysis of CO2 emissions embodied in trade: The effects of sector aggregation. Energy Economics 32 (1), 166-175.

Book Publications

  • Su, B., Thomson, E., 2016a. China’s Energy Efficiency and Conservation: Sectoral Analysis. Springer Briefs in Environment, Security, Development and Peace Vol.30, Singapore. ISBN: 978-981-10-0735-4 (Print) 978-981-10-0737-8 (Online).

    http://link.springer.com/book/10.1007/978-981-10-0737-8

  • Su, B., Thomson, E., 2016b. China’s Energy Efficiency and Conservation: Household Behaviour, Legislation and Impacts. Springer Briefs in Environment, Security, Development and Peace Vol.31, Singapore. ISBN: 978-981-10-0927-3 (Print) 978-981-10-0928-0 (Online).
    http://link.springer.com/book/10.1007/978-981-10-0928-0

IRJ Referee Service

Dr. Su has regularly served as a referee for more than 100 international peer-reviewed journals (IRJ), including Nature Climate Change, Nature Sustainability, Nature Cities, Nature Communication, Scientific Reports, Humanities and Social Sciences Communications, Proceedings of the National Academy of Science of the United States of America, Science Bulletin, One Earth, iScience, Patterns, Joule, Environmental Science & Technology, Energy Policy, Energy Economics, Ecological Economics, Environmental and Resource Economics, Applied Energy, Energy, Global Environmental Change, Ecological Indicators, Ecological Modelling, International Journal of Global Energy Issues, Science of the Total Environment, Energy for Sustainable Development, Communications in Nonlinear Science and Numerical Simulation, Economic Systems Research, Structural Change and Economic Dynamics, Environmental Development, Chinese Journal of Population-Resource and Environment, Frontiers of Earth Science, PLOS One, Letters in Spatial and Resource Sciences, Journal of Systems Science and Complexity, International Journal of Global Environmental Issues, Economic Modeling, Natural Hazards, Ecological Informatics, Journal of Systems Science and Systems Engineering, Energies, Emerging Markets Finance and Trade, Journal of Cleaner Production, Climate Policy, Energy Sustainability and Society, Resources, Conservation & Recycling, Journal of Renewable and Sustainable Energy, China Economic Review, Journal of Environmental Planning and Management, Singapore Economic Review, Population and Environment, Journal of Industrial Ecology, Environment, Development and Sustainability, Carbon Management, Sustainable Cities and Society, Technological Forecasting & Social Change, Resources and Energy Economics, Environmental Science & Policy, Environmental Science and Pollution Research, Environmental Engineering Research, Environment and Development Economics, Journal of Environmental Economics and Policy, Environmental Modelling and Software, Cities, Environmental Pollution, Journal of Environmental Management, Energy Sources, Part B: Economics, Planning, and Policy, International Journal of Finance & Economics, Energy Strategic Reviews, Environmental Reviews, Journal of Productivity Analysis, Globalizations, Mitigation and Adaptation Strategies for Global Change, Natural Resources Forum, Environmental Modeling & Assessment, Environmental Research, Renewable & Sustainable Energy Reviews, Applied Geography, Environmental Technology & Innovation, Computers & Industrial Engineering, Socio-Economic Planning Sciences, Journal of Public Affairs, Journal of Sustainability Science and Management, ACM Transactions on Internet Technology, Mathematical Problems in Engineering, Energy and Climate Change, Engineering, Construction and Arthitectural Management, The World Economy, Sustainable Production and Consumption, Frontiers in Energy, Asian Academy of Management, Journal of Management Science and Engineering, Asia-Pacific Journal of Regional Science, International Journal of Green Energy, Food and Energy Security, Land, Environmental Impact Assessment Review, Frontiers of Engineering Management, Integrated Environment Assessment and Management, International Journal of Energy Research, Applied Economics Letters, China & World Economy, Engineering, Technological and Economic Development of Economy, Economic Research-Ekonomska Istraživanja, IEEE Transactions on Engineering Management, Journal of Innovation & Knowledge, New Zealand Economic Papers, Journal of Sustainable Finance & Investment, Science Progress, Eastern European Economics, Sustainable Development, Ecosystem Health and Sustainability, Water Resources and Economics, Local Government Studies, PNAS Nexus, Environmental Technology, Journal of Regional Science, Journal of Systems Science and Information, International Journal of Economics and Management, Telecommunications Policy, Innovation: The European Journal of Social Science Research, Journal of the Asia Pacific Economy.

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