[1] Xia L, Chen W, Lu B, Wang S, Xiao L, Liu B, Yang H, Huang CL, Wang H, Yang Y, Lin L, Zhu X, Chen W, Yan X, Zhuang M, Kung CC, Zhu YG* , Yang Y**. (2023). Climate Mitigation Potential of Sustainable Biochar Production in China. Renewable & Sustainable Energy Reviews, 175: 113145.
[2] Kung CC, Fei CJ * , McCarl BA, Fan X. (2022). A Review of Biopower and Mitigation Potential of Competing Pyrolysis Methods. Renewable & Sustainable Energy Reviews, 162: 112443.
[3] Kung CC, Lan X, Yang Y, Kung SS, Chang MS* . (2022). Effects of Green Bonds on Taiwan’s Bioenergy Development. Energy, 238:121567.
[4] Kung CC, Wu T* . (2021). Influence of Water Allocation on Bioenergy Production under Climate Change: A Stochastic Mathematical Programming Approach. Energy, 231: 120955.
[5] Hu Q, Huang H* , Kung CC. (2021). Ecological Impact Assessment of Land Use in EcoIndustrial Park Based on Life Cycle Assessment: A Case Study of Nanchang High-tech Development Zone in China. Journal of Cleaner Production, 300: 126816.
[6] Chang MS, Kung CC, Chen MW, Tian Y* . (2021). Volatility Regime, Inverted Asymmetry, Contagion, and Flights in the Gold Market. Pacific-Basin Finance Journal, 67: 101522.
[7] Pan D, Tang J, Zhang L* , He M, Kung CC. (2021). The impact of Farm Scale and Technology Characteristics on The Adoption of Sustainable Manure Management Technologies: Evidence from Hog Production in China. Journal of Cleaner Production, 280: 124340.
[8] Kung CC* , McCarl BA. (2020). The potential role of renewable electricity generation in Taiwan. Energy Policy, 138: 111227.
[9] Wu T, Kung CC* . (2020). Carbon Emissions, Technology Upgradation and Financing Risk of the Green Supply Chain Competition. Technological Forecasting & Social Change, 4 152: 119884
[10] Kung CC, Mu EJ* . (2019). Prospect of Pyrolysis and Biochar Application under Climate Change. Renewable & Sustainable Energy Reviews, 114: 109343.
[11] Kung CC, Cao X, Choi Y*, Kung SS. (2019). A Stochastic Analysis of Cropland Utilization and Resource Allocation under Climate Change. Technological Forecasting & Social Change, 148: 119711.
[12] Kung CC. (2019). A Stochastic Evaluation of Economic and Environmental Effects on Taiwan’s Biofuel Development under Climate Change. Energy, 167: 1051-1064.
[13] Kung CC, Zhang, N*, Choi Y, Xiong K, Yu, J. (2019). Effectiveness of Crop Residuals in Ethanol and Pyrolysis-Based Electricity Production: A Stochastic Analysis under Uncertain Climate Impacts. Energy Policy, 125: 267-276.
[14] Kung CC, Li H, Lin R. (2018). Bioenergy Strategies under Climate Change: A Stochastic Programming Approach. Journal of Cleaner Production, 188: 290-303.
[15] Kung CC, Zhang L, Chang MS. (2017). Promotion Policies for Renewable Energy and Their Effects in Taiwan. Journal of Cleaner Production, 142(20): 965-975.
[16] Kung CC, Zhang L, Kong F. (2016). How Government Subsidy Leads to Sustainable Bioenergy Development: A Case Study in Jiangxi, China,Technological Forecasting and Social Change, 112: 275-284.
[17] Kung CC, Zhang N* . (2015). Renewable Energy from Pyrolysis Using Crops and Agricultural Residuals: An Economic and Environmental Evaluation, Energy, 90: 1532- 1544.
[18] Zhang N, Zhou P, Kung CC* . (2015). Total factor Carbon Emissions Performance of the Chinese transportation Industry: A Bootstrapped Non-Radial Malmquist Index Analysis, Renewable and Sustainable Energy Review, 41: 584-593.
[19] Kung CC, Kong F*, Choi Y. (2015). Pyrolysis and Biochar Potential Using Crop Residues and Agricultural Wastes in China, Ecological Indicators, 51: 139-145.
[20] Kung CC* , McCarl BA, Chen CC. (2014). An Environmental and Economic Evaluation of 5 Pyrolysis for Energy Generation in Taiwan with Endogenous Land Greenhouse Gases Emissions, International Journal of Environmental Research and Public Health, 11: 2973-2991
[21] Kung CC* , McCarl BA, Cao XY. (2013). Economics of Pyrolysis based Energy Production and Biochar Utilization_ A Case Study in Taiwan, Energy Policy, 60(9): 317- 323.
[22] Kung CC* , McCarl BA, Cao XY, Xie HL. (2013). Bioenergy Prospects in Taiwan Using Set-Aside Land--An Economic Evaluation, China Agricultural Economic Review, 5(4): 489-511
[23] Xie HL* , Kung CC, Zhang YT, Li XB. (2012). Simulation of Regionally Ecological Land based on Cellular Automation Model: a case Study of Beijing, China, Int. Journal of Environmental Research and Public Health, 9(8): 2986-3001.
[24] Hu S., Wang D, Qin Z, Kung CC* . (2024). Bioenergy potential and emission offset from manure application in Taiwan. International Journal of Hydrogen Energy, 58: 310-317.
[25] Wu T, Gui L, Zhang LG, Kung CC* (2023). Information Jamming and Capture Cost: A Global Game Analysis of Collective Action Sage Open, Jan-Mar 2023:1-15
[26] Li Y * , Zhang LG, Kung CC, Wu B, Zhang C. (2023). Impact of New Talent Settlement Policy on Housing Prices: Evidence from 70 Large and Medium-sized Chinese cities. PLOS ONE
[27] Chen MW, Chang MS, Hu S, Kung CC* . (2023). Machine Learning in the Evaluation and Prediction Models of Biochar Application: A Review. Science Progress, 106(1):1-22.
[28] Kung CC, Zheng B, Lee TJ* , Wu N. (2022). Collections for Economic Growth, Social Development, and Technological Innovation under Climate Change. Sage Open, Apr-June 2022: 1-3.
[29] Kung SS, Li H, Li S, Zhang L, Kung CC* . (2022). Effects of Green Bonds on Bioenergy Development under Climate Change. Advances in Climate Change Research, 13:97-106
[30] Kung CC, Zheng B, Li H, Kung SS* . (2022). The Development of Input-Monitoring System on Biofuel Economics and Social Welfare Analysis. Science Progress, 105 (3):1- 19.
[31] Aftab RM, Zhang L, Kung CC* . (2022). A Techno-Economic Analysis of Solar Energy 6 Developmental under Competing Technologies: A Case Study in Jiangxi, China. Sage Open, April-June 2022:1-15.
[32] Nie A, Kung SS, Li HL, Zhang LG, He XG, Kung CC* . (2021). An Environmental and Economic Assessment from Bioenergy Production and Biochar Application. Journal of Saudi Chemical Society, 25: 101173.
[33] Aftab RM, Zhang L, Kung CC* . (2021). Renewable Power Potential from Municipal Solid Waste: A Case Study in Jiangxi, China. Sage Open, Oct-Dec 2021: 1-11.
[34] Kung CC, Wu T* . (2020). A Spatial Equilibrium Analysis of Using Agricultural Resources to Produce Biofuel. Agricultural Economics-Czech, 66(2):74-83
[35] Xiong K, Zhang N, Kung CC, Kong F* . (2019). Determinants of Residents’ Willingness to Accept and Their Levels for Ecological Conservation in Ganjiang River Basin, China: An Empirical Analysis of Survey Data for 677 Households. Sustainability, 11(21): 6138.
[36] Kung, CC. (2018). A Dynamic Framework of Sustainable Development in Agriculture and Bioenergy. Agricultural Economics-Czech, 64(10): 445-455.
[37] Kung CC* , McCarl BA. (2018). Sustainability Energy Development under Climate Change. Sustainability, 10: 3269.
[38] Cao X, Kung CC* , Wang Y. (2017). An Environmental and Economic Evaluation of Carbon Sequestration from Pyrolysis and Biochar Application in China. Agricultural Economics- Czech, 63, (12): 569–578.
[39] Chang MS, Wang W, Kung CC* . (2015). Economic Effects of Biochar Application on Rice Supply in Taiwan, Agricultural Economics-Czech, 61(6): 284-295.
[40] Kung CC, Chang MS * . (2015). Effect of Agricultural Feedstock to Energy Conversion Rate on Bioenergy and GHG Emissions, Sustainability, 7: 5981-5995.
[41] Kung CC, Xie HL, Wu T* , Chen SC. (2014). Biofuel for Energy Security: An Examination on Pyrolysis Systems with Emissions from Fertilizer and Land-Use Change, Sustainability, 2: 571-588
[42] Chang MS # , Kung CC*,# . (2014). Nonparametric Forecasting for Biochar Utilization in Poyang Lake Eco-Economic Zone in China, Sustainability, 1: 267-282
[43] Xie HL* , Kung CC, Zhao YL. (2012). Spatial Disparities of Regional Forest Land Change Based on ESDA and GIS at the County Level in Beijing-Tianjin-Hebei Area, Frontiers in Earth Science, 6(4): 45-452.
