教育及工作经历

2019/04至今                清华大学车辆与运载学院，副教授，博士生导师

2018/12-2019/04           清华大学汽车工程系，副教授，博士生导师

2017/01-2018/12           清华大学汽车工程系，助理教授，博士生导师

2014/10-2017/01           清华大学汽车工程系，助理研究员

2013/12-2014/05           美国阿岗国家实验室能源系统部（Energy Systems Division, Argonne National Laboratory），访问学者

2013/05-2013/10           美国芝加哥大学能源政策研究所（Energy Policy Institute at the University of Chicago），访问学者

2012/07-2014/10           清华大学汽车工程系，博士后

2007/09-2012/07           清华大学汽车工程系，博士（导师：欧阳明高 院士）

2003/09-2007/07           清华大学汽车工程系，本科

专业委员会

2018/11至今                中国汽车工程学会青年工作委员会，委员

2017/05至今                中国系统工程学会能源资源系统工程分会，常务理事

2016/09-2018/08           国际汽车工程师学会联合会(FISITA)，理事

2016/08至今                中国优选法统筹法与经济数学研究会能源经济与管理研究分会，理事

2015/11至今                中国汽车工程学会技术管理分会，副秘书长

期刊编委

2022/01至今                Transportation Research Part D: Transport and Environment, 编委

2021/08至今                Circular economy，编委

2021/08至今                Frontiers in Energy，青年编委

2021/07至今                Frontiers in Energy，“Toward carbon neutrality: Innovative energy and resource management”专刊编委

2017/01-2018/08           Frontiers in Energy，“Post-Paris Agreement climate change mitigation in developing world”专刊编委

2016/12至今                Automotive Innovation，副主编

2015/01-2015/06           Journal of Sustainable Mobility，“Sustainable Mobility in China and its Implications for Emerging Economies”专刊编委

专题工作组

2021/04至今                Nature Sustainability可持续电池专家委员会，专家成员

2019/01-2021/01           《China’s Resources, Energy and Sustainable Development》研究撰写组

2012/05-2014/04           联合国IPCC第五次评估报告，贡献作者

2012/01-2013/01           《Sustainable Automotive Energy System in China》研究撰写组

2010/01-2012/01           《中国车用能源展望》研究撰写组

开设课程

《车用能源概论》（00150132），本科生全校任选课，32学时

《交通能源系统分析》（70150382），研究生专业课，32学时

指导学生

博士研究生                  孙鑫（2018）；荀邓晔（2019）；耿旌轩（2020）；刘铭（2021）；杜世龙（2022）；邓昀锋（2022）

硕士研究生                  高索芬（2020）；窦昊（2022）

留学生                         Philipp Hartmann（2018，已毕业）；Alexander Schollemann（2019，已毕业）

协助指导                     王司南（2015博，已毕业）；乔钦彧（2015博，已毕业）；程翔（2015硕，已毕业）；刘斐齐（2016博，已毕业）；牟哲萱（2017博）

毕业设计                     2022：杜世龙、邓昀锋；2021：刘铭（系优）、窦昊、周昊（协助）、王天殊（协助）；2020：耿旌轩、多力岗、孙翔宇（协助）、廖悦海（协助）；2019：荀邓晔、施华杰；2018：孙鑫（校优）、华巍、戎静（协助）；2017：韩啸（系优）、鲁健、武尚文（协助）、牟哲萱（协助）、张哲嘉（协助）、陈振宇（协助）；2016：蒋淑华（系优）、张晓莉（系优）、刘斐齐（协助）；2015：程翔（系优）、李骁

学生奖励荣誉

2021/11                        荀邓晔获得世界大学气候变化联盟研究生论坛最佳报告奖

2021/06                        刘铭获得清华大学本科优秀毕业论文（院级）

2021/05                        刘铭获得第七届全国大学生能源经济学术创意大赛一等奖

2021/01                        孙鑫获得Resources, Conservation & Recycling期刊优秀审稿人

2020/12                        孙鑫获得钱易环境奖特等奖（当年唯一特等奖获得者）

2020/11                        荀邓晔获得清华大学研究生一等奖学金

2020/11                        孙鑫获得清华大学研究生一等奖学金

2020/07                        耿旌轩获得第六届全国大学生能源经济学术创意大赛一等奖

2019/11                        孙鑫获得世界大学气候变化联盟研究生论坛最佳报告奖

2019/10                        孙鑫获得清华大学研究生一等奖学金（所在年级排名第一）

2019/10                        孙鑫获得NSK机械工程优秀论文奖

2019/07                        荀邓晔获得第五届全国大学生能源经济学术创意大赛一等奖

2018/08                        孙鑫获得第四届全国大学生能源经济学术创意大赛一等奖

2018/08                        孙鑫获得第四届全国大学生能源经济学术创意大赛最佳能源建模奖

2018/06                        孙鑫获得清华大学本科优秀毕业论文（校级）

2018/06                        孙鑫获得清华-大众汽车“We Promote Talent 2018”毕业设计优胜奖

2017/12                        孙鑫获得清华大学科技创新奖学金

2017/09                        孙鑫获得第八届能源经济与管理学术年会优秀论文二等奖

2017/08                        孙鑫获得第三届全国大学生能源经济学术创意大赛三等奖

科研项目

[1]      国家自然科学基金优秀青年科学基金项目《资源可持续管理与政策研究》（72122010），2022/01-2024/12，200万元，主持

[2]      汽车安全与节能国家重点实验室自主课题《动力电池全产业链供应风险识别及应对机制研究》（ZZ2021-022），2021/06-2022/12，30万元，主持

[3]      汽车安全与节能国家重点实验室自主课题《电动汽车发展的资源协同机制研究》（ZZ2019-023），2019/01-2020/12，30万元，主持

[4]      国家自然科学基金面上项目《“锂-能-环”纽带关系及其协同机制研究》（71774100），2018/01-2021/12，47万元，主持

[5]      国家自然科学基金重大项目《经济发展新常态下的绿色低碳转型特征与模式研究》（71690241）子课题“重点产业绿色低碳转型模式研究”，2017/01-2021/12，50万元，主持

[6]      汽车安全与节能国家重点实验室自主课题《中国汽车存活规律研究》（ZZ2016-024），2016/07-2017/12，15万元，主持

[7]      中国科协青年人才托举工程《低碳发展及资源协同》（YESS20160140），2016/01-2018/12，45万元，主持

[8]      国家自然科学基金青年科学基金项目《我国道路交通温室气体减排成本及潜力研究》（71403142），2015/01-2017/12，20万元，主持

学术专著

[1]      Tsinghua-Rio Tinto Joint Research Centre for Resources, Energy and Sustainable Development, 2021, China’s Resources, Energy and Sustainable Development: 2020, Springer. Chapter 6: The Impacts of Electric Vehicles on Resources and Supply Chains Sustainability. Han Hao, Xin Sun.

[2]      节能与新能源汽车技术路线图战略咨询委员会, 2016, 节能与新能源汽车技术路线图, 机械工业出版社. 第一章：节能与新能源汽车总体技术路线图, 共同执笔人.

[3]      制造强国战略研究项目组, 2015, 制造强国战略研究·领域卷（一）, 电子工业出版社. 第六章：汽车制造强国战略研究, 共同执笔人.

[4]      Intergovernmental Panel on Climate Change (IPCC), 2014, Climate change 2014: mitigation of climate Change, Cambridge University Press. Chapter 8: Transport, Contributing author.

[5]      China Automotive Energy Research Center (CAERC) of Tsinghua University, 2013, Sustainable Automotive Energy System in China, Springer. Chapter 3: Scenario Analyses of China’s Vehicle Ownership and Vehicle Traffic Services. Hewu Wang, Han Hao, Minggao Ouyang. Chapter 12: Scenario Analyses of Automotive Energy. Xiliang Zhang, Xunmin Ou, Jihong Zhang, Qimin Chai, Han Hao, Hong Huo, Jiankun He.

[6]      清华大学中国车用能源研究中心, 2012, 中国车用能源展望, 科学出版社. 第3章：中国汽车保有量及交通服务量情景分析. 王贺武, 郝瀚, 欧阳明高. 第12章：车用能源情景分析. 张希良, 欧训民, 张继宏, 柴麒敏, 郝瀚, 霍红, 何建坤.

奖励荣誉

2021/04                        爱思维尔2020中国高被引学者

2020/08                        清华大学先进工作者

2020/01                        Resources, Conservation & Recycling期刊优秀审稿人

2020/01                        清华大学车辆学院年度考核优秀奖

2019/12                        清华大学刘冰奖（清华大学学生思政工作最高荣誉）

2019/12                        清华大学车辆学院青年教师教学比赛二等奖

2018/11                        中国汽车工业科学技术奖（省部级）二等奖，《汽车产业安全理论研究及其在重大产业政策制订中的应用》，3/5（刘宗巍, 赵福全, 郝瀚, 陈康达, 王悦）

2018/04                        北京市教育教学成果奖（省部级）二等奖，《新车辆人才观理念及实践——不拘一格车辆工程人才培养二十年探索》，2/11（杨福源, 郝瀚, 杨殿阁, 黄开胜, 聂冰冰, 姬雪, 李克强, 帅石金, 马春生, 周世兰, 杨丽媛）

2018/01                        清华大学汽车工程系年度考核优秀奖

2018/01                        国家能源局能源软科学研究优秀成果奖（省部级）二等奖，《中国车用能源系统可持续转型研究》，8/10（何建坤, 张希良, 王贺武, 欧训民, 朱桂萍, 麻林巍, 常世彦, 郝瀚, 刘培, 黄海燕）

2017/08                        第三届全国大学生能源经济学术创意大赛优秀指导教师

2017/03                        入选中国科协“青年人才托举工程”（行业首批入选）

2016/10                        中国汽车工业科学技术奖（省部级）二等奖，《中国建设汽车强国的差距分析与发展战略》，3/5（赵福全, 刘宗巍, 郝瀚, 赵世佳, 王悦）

2012/07                        北京市优秀毕业生（博士）

2012/07                        清华大学教学成果奖（校级）一等奖，《党员是永不换届的班委—兵器定向生以党建为根基，以党建带班建的育人体系建设》，5/5（马春生、熊剑平、林成涛、黄开胜、郝瀚）

2011/04                        第十六届清华大学研究生学术新秀（清华大学研究生最高学术荣誉，全校10人）

2007/07                        清华大学优秀毕业生（清华大学最高毕业生荣誉，全系2人）

学术论文

[1]      Xu Tian, Yong Geng, Joseph Sarkis, Cuixia Gao, Xin Sun, Tatyana Micic, Han Hao, Xin Wang, 2021, Features of critical resource trade networks of lithium-ion batteries, Resources Policy, 73: 102177.

[2]      Xue Rui, Yong Geng, Xin Sun, Han Hao, Shijiang Xiao, 2021, Dynamic material flow analysis of natural graphite in China for 2001-2018, Resources, Conservation and Recycling, 173: 105732.

[3]      Xin Sun, Zongwei Liu, Fuquan Zhao, Han Hao*, 2021, Global Competition in the Lithium-Ion Battery Supply Chain: A Novel Perspective for Criticality Analysis, Environmental Science & Technology, 55(18): 12180-12190.

[4]      Hong Tan, Fuquan Zhao, Han Hao, Zongwei Liu, 2021, Evidence for the Crash Avoidance Effectiveness of Intelligent and Connected Vehicle Technologies, International Journal of Environmental Research and Public Health, 18(17): 9228.

[5]      Haoyi Zhang, Fuquan Zhao, Han Hao, Zongwei Liu, 2021, Effect of Chinese Corporate Average Fuel Consumption and New Energy Vehicle Dual-Credit Regulation on Passenger Cars Average Fuel Consumption Analysis, International Journal of Environmental Research and Public Health, 18(14): 7218.

[6]      Kangda Chen, Fuquan Zhao, Han Hao, Zongwei Liu, Xinglong Liu, 2021, Hierarchical Optimization Decision-Making Method to Comply with China's Fuel Consumption and New Energy Vehicle Credit Regulations, Sustainability, 13(14): 7842.

[7]      Feiqi Liu, Denise Mauzerall, Fuquan Zhao, Han Hao, 2021, Deployment of fuel cell vehicles in China: Greenhouse gas emission reductions from converting the heavy-duty truck fleet from diesel and natural gas to hydrogen, International Journal of Hydrogen Energy, 46(34): 17982-17997.

[8]      Dengye Xun, Xin Sun, Jingxuan Geng, Zongwei Liu, Fuquan Zhao, Han Hao*, 2021, Mapping global fuel cell vehicle industry chain and assessing potential supply risks, International Journal of Hydrogen Energy, 46(29): 15097-15109.

[9]      Kangda Chen, Fuquan Zhao, Xinglong Liu, Han Hao, Zongwei Liu, 2021, Impacts of the New Worldwide Light-Duty Test Procedure on Technology Effectiveness and China's Passenger Vehicle Fuel Consumption Regulations, International Journal of Environmental Research and Public Health, 18(6): 3199.

[10]  Qinyu Qiao, Fuquan Zhao, Zongwei Liu, Han Hao*, Xin He, Steven Przesmitzki, Amer Ahmad Amer, 2020, Life cycle cost and GHG emission benefits of electric vehicles in China, Transportation Research Part D: Transport and Environment, 86: 102418.

[11]  Dengye Xun, Han Hao*, Xin Sun, Zongwei Liu, Fuquan Zhao, 2020, End-of-life recycling rates of platinum group metals in the automotive industry: Insight into regional disparities, Journal of Cleaner Production, 266: 121942.

[12]  Jingxuan Geng, Han Hao*, Xin Sun, Dengye Xun, Zongwei Liu, Fuquan Zhao, 2021, Static material flow analysis of neodymium in China, Journal of Industrial Ecology, 25(1): 114-124. (Journal of Industrial Ecology期刊2020年最受关注的15篇论文排名第一)

[13]  Fuquan Zhao, Feiqi Liu, Han Hao, Zongwei Liu, 2020, Carbon Emission Reduction Strategy for Energy Users inChina, Sustainability, 12(16): 6498.

[14]  Hong Tan, Fuquan Zhao, Han Hao, Zongwei Liu, 2020, Cost analysis of road traffic crashes in China, International Journal of Injury Control and Safety Promotion, 27(3): ‏ 385-391.

[15]  Xinglong Liu, Fuquan Zhao, Han Hao, Kangda Chen, Zongwei Liu, Hassan Babiker, Amer Ahmad Amer, 2020, From NEDC to WLTP: Effect on the Energy Consumption, NEV Credits, and Subsidies Policies of PHEV in the Chinese Market, Sustainability, 12(14): 5747.

[16]  Fuquan Zhao, Zhexuan Mu, Han Hao, Zongwei Liu, Xin He, Steven Przesmitzki, Amer Ahmad Amer, 2020, Hydrogen Fuel Cell Vehicle Development in China: An Industry Chain Perspective, Energy Technology, 2000179.

[17]  Zongwei Liu, Haoyi Zhang, Han Hao, Fuquan Zhao, 2020, Comparative study of corporate average fuel consumption regulations based on curb weight and footprint benchmarks, Clean Technologies and Environmental Policy, 22(6): ‏ 1311-1323.

[18]  Fuquan Zhao, Kangda Chen, Han Hao, Zongwei Liu, 2020, Challenges, Potential and Opportunities for Internal Combustion Engines inChina, Sustainability, 12(12): 4955.

[19]  Zongwei Liu, Xinglong Liu, Han Hao, Fuquan Zhao, Amer Ahmad Amer, Hassan Babiker, 2020, Research on the Critical Issues for Power Battery Reusing of New Energy Vehicles in China, Energies, 13(8): 1932.

[20]  Xin Sun, Han Hao*, Zongwei Liu, Fuquan Zhao, 2020, Insights into the global flow pattern of manganese, Resources Policy, 65: 101578.

[21]  Hong Tan, Fuquan Zhao, Han Hao, Zongwei Liu, 2020, Estimate of safety impact of lane keeping assistant system on fatalities and injuries reduction for China: Scenarios through 2030, Traffic Injury Prevention, 21(2): 156-162.

[22]  Hong Tan, Fuquan Zhao, Han Hao, Zongwei Liu, Amer Ahmad Amer, Hassan Babiker, 2020, Automatic Emergency Braking (AEB) System Impact on Fatality and Injury Reduction in China, International Journal of Environmental Research and Public Health, 17(3): 917.

[23]  Feiqi Liu, Fuquan Zhao, Zongwei Liu, Han Hao*, 2020, The Impact of Purchase Restriction Policy on Car Ownership inChina's Four Major Cities, Journal of Advanced Transportation, 2020: 7454307.

[24]  Xin Sun, Han Hao*, Philipp Hartmann, Zongwei Liu, Fuquan Zhao, 2019, Supply risks of lithium-ion battery materials: an entire supply chain estimation, Materials Today Energy, 14: 100347.

[25]  Han Hao, Yong Geng, James E. Tate, Feiqi Liu, Kangda Chen, Xin Sun, Zongwei Liu, Fuquan Zhao, 2019, Impact of transport electrification on critical metal sustainability with a focus on the heavy-duty segment, Nature Communications, 10: 5398. (清华大学新闻网报道)

[26]  Han Hao, Yong Geng, James E. Tate, Feiqi Liu, Xin Sun, Zhexuan Mu, Dengye Xun, Zongwei Liu, Fuquan Zhao, 2019, Securing Platinum-Group Metals for Transport Low-Carbon Transition, One Earth, 1(1): 117-125. (国家自然科学基金委“基金要闻”报道)

[27]  Xin Sun, Han Hao*, Zongwei Liu, Fuquan Zhao, Junnan Song, 2019, Tracing Global Cobalt Flow: 1995-2015, Resources, Conservation and Recycling, 149: 45-55. (Resources, Conservation and Recycling期刊Editor's Choice of Newly Accepted Papers)

[28]  Feiqi Liu, Fuquan Zhao, Zongwei Liu, Han Hao*, 2019, Can autonomous vehicle reduce greenhouse gas emissions? A country-level evaluation, Energy Policy, 132: 462-473.

[29]  Qinyu Qiao, Fuquan Zhao, Zongwei Liu, Xin He, Han Hao*, 2019, Life Cycle Greenhouse Gas Emissions of Electric Vehicles inChina: Combining the Vehicle Cycle and Fuel Cycle, Energy, 177: 222-233.

[30]  Xu Kuang, Fuquan Zhao, Han Hao, Zongwei Liu, 2019, Assessing the Socio-Economic Impacts of Intelligent Connected Vehicles inChina: A Cost–Benefit Analysis, Sustainability, 11: 3273.

[31]  Sinan Wang, Kangda Chen, Fuquan Zhao, Han Hao*, 2019, Technology pathways for complying with Corporate Average Fuel Consumption regulations up to 2030: A case study ofChina, Applied Energy, 241: 257-277.

[32]  Yawen Li, Bohan Zeng, Tian Wu, Han Hao, 2019, Effects of urban environmental policies on improving firm efficiency: Evidence from Chinese new energy vehicle firms, Journal of Cleaner Production, 215: 600-610.

[33]  Han Hao*, Feiqi Liu, Xin Sun, Zongwei Liu, Fuquan Zhao, 2019, Quantifying the energy, environmental, economic, resource co-benefits and risks of GHG emissions abatement: The case of passenger vehicles in China, Sustainability, 11(5): 1344.

[34]  Fuquan Zhao, Kangda Chen, Han Hao, Sinan Wang, Zongwei Liu, 2019, Technology Development for Electric Vehicles under New Energy Vehicle Credit Regulation inChina: Scenarios through 2030, Clean Technologies and Environmental Policy, 21(2): 275-289.

[35]  Xin Sun, Han Hao*, Zongwei Liu, Fuquan Zhao, 2019, The dynamic equilibrium mechanism of regional lithium flow for transportation electrification, Environmental Science & Technology, 53(2): 743-751.

[36]  Fuquan Zhao, Feiqi Liu, Zongwei Liu, Han Hao*, 2019, The correlated impacts of fuel consumption improvements and vehicle electrification on vehicle greenhouse gas emissions in China, Journal of Cleaner Production, 207: 702-716.

[37]  Qinyu Qiao, Fuquan Zhao, Zongwei Liu, Han Hao*, 2019, Electric Vehicle Recycling in China: Economic and Environmental Benefits, Resources, Conservation and Recycling, 140: 45-53.

[38]  Feiqi Liu, Fuquan Zhao, Zongwei Liu, Han Hao*, 2018, The impact of fuel cell vehicle deployment on road transport greenhouse gas emissions: theChinacase, International Journal of Hydrogen Energy, 43(50): 22604-22621.

[39]  Feiqi Liu, Fuquan Zhao, Zongwei Liu, Han Hao*, 2018,China’s Electric Vehicle Deployment: Energy and Greenhouse Gas Emission Impacts, Energies, 11(12): 3353.

[40]  Kangda Chen, Fuquan Zhao, Han Hao, Zongwei Liu, 2018, Synergistic impacts of China’s subsidy policy and new energy vehicle credit regulation on the technological development of battery electric vehicles, Energies, 11(11): 3193.

[41]  Yong Geng, Tsuyoshi Fujita, Anthony Chiu, Hancheng Dai, Han Hao, 2018, Responding to the Paris Climate Agreement: global climate change mitigation efforts, Frontiers in Energy, 12(3): 333-337.

[42]  Han Hao, Zhexuan Mu, Zongwei Liu, Fuquan Zhao, 2018, Abating transport GHG emissions by hydrogen fuel cell vehicles: Chances for the developing world, Frontiers in Energy, 12(3): 466-480. (Frontiers in Energy期刊年度优秀论文)

[43]  Sinan Wang, Fuquan Zhao, Zongwei Liu, Han Hao*, 2018, Impacts of a super credit policy on electric vehicle penetration and compliance withChina's Corporate Average Fuel Consumption regulation, Energy, 155: 746-762.

[44]  Xu Tian, Hancheng Dai, Yong Geng, Jeffrey Wilson, Rui Wu, Yang Xie, Han Hao, 2018, Economic Impacts from PM2.5 pollution-related Health Effects in China’s road transport sector, Environment International, 115: 220-229.

[45]  Zongwei Liu, Han Hao, Xiang Cheng, Fuquan Zhao, 2018, Critical Issues of Energy Efficient and New Energy Vehicles Development inChina, Energy Policy, 115: 92–97. (ESI高被引论文)

[46]  Xin Sun, Han Hao*, Zongwei Liu, Fuquan Zhao, 2018, Global Lithium Flow 1994-2015: Implications for Improving Resource Efficiency and Security, Environmental Science & Technology, 52(5): 2827-2834.

[47]  Xu Tian, Yong Geng, Shaozhuo Zhong, Jeffrey Wilson, Cuixia Gao, Wei Chen, Zhongjue Yu, Han Hao, 2018, A bibliometric analysis on trends and characters of carbon emissions from transport sector, Transportation Research Part D: Transport and Environment, 59: 1-10.

[48]  Han Hao, Zongwei Liu, Fuquan Zhao, Jingzheng Ren, Shiyan Chang, Ke Rong, Jiuyu Du, 2018, Biofuel for Vehicle Use in China: Current Status, Future Potential and Policy Implications, Renewable & Sustainable Energy Reviews, 82: 645–653.

[49]  Xu Kuang, Fuquan Zhao, Han Hao, Zongwei Liu, 2018, Intelligent Connected Vehicles: The Industrial Practices and Impacts on Automotive Value Chains inChina, Asia Pacific Business Review, 24(1): 1-21.

[50]  Jing Chen, Fuquan Zhao, Zongwei Liu, Xunmin Ou, Han Hao*, 2017, Greenhouse Gas Emissions from Road Construction inChina: a Province-level Analysis, Journal of Cleaner Production, 168: 1039-1047.

[51]  Sinan Wang, Fuquan Zhao, Zongwei Liu, Han Hao*, 2017, Heuristic Method for Automakers' Technological Strategy Making towards Fuel Economy Regulations based on Genetic Algorithm: A China's Case under Corporate Average Fuel Consumption Regulation, Applied Energy, 204: 544-559.

[52]  Qinyu Qiao, Fuquan Zhao, Zongwei Liu, Shuhua Jiang, Han Hao*, 2017, Cradle-to-gate greenhouse gas emissions of battery electric and internal combustion engine vehicles in China, Applied Energy, 204: 1399-1411. (Nature Energy期刊Research Highlights栏目报道、金融时报、彭博社等媒体报道)

[53]  Han Hao, Xiang Cheng, Zongwei Liu, Fuquan Zhao, 2017, Electric Vehicles for Greenhouse Gas Reduction inChina: a Cost-Effectiveness Analysis, Transportation Research Part D: Transport and Environment, 56: 68-84.

[54]  Han Hao, Xiang Cheng, Zongwei Liu, Fuquan Zhao, 2017, China’s traction battery technology roadmap: Targets, impacts and concerns, Energy Policy, 108: 355-358.

[55]  Xin Sun, Han Hao*, Fuquan Zhao, Zongwei Liu, 2017, Tracing Global Lithium Flow: a Trade-Linked Material Flow Analysis, Resources, Conservation and Recycling, 124: 50-61.

[56]  Ke Rong, Yongjiang Shi, Tianjiao Shang, Yantai Chen, Han Hao, 2017, Organizing business ecosystems in emerging electric vehicle industry: Structure, mechanism, and integrated configuration, Energy Policy, 107: 234-247.

[57]  Han Hao, Qinyu Qiao, Zongwei Liu, Fuquan Zhao, 2017, Comparing the Life Cycle Greenhouse Gas Emissions from Vehicle Production in China and the U.S.: Implications for Targeting the Reduction Opportunities, Clean Technologies and Environmental Policy, 19(5): 1509–1522.

[58]  Han Hao, Qinyu Qiao, Zongwei Liu, Fuquan Zhao, 2017, Impact of recycling on energy consumption and greenhouse gas emissions from electric vehicle production: the China 2025 case, Resources, Conservation and Recycling, 122: 114-125. (Resources, Conservation and Recycling期刊Most downloaded Paper Award)

[59]  Han Hao, Feiqi Liu, Zongwei Liu, Fuquan Zhao, 2017, Measuring Energy Efficiency in China’s Transport Sector, Energies, 10: 660.

[60]  Han Hao, Zhexuan Mu, Shuhua Jiang, Zongwei Liu, Fuquan Zhao, 2017, GHG Emissions from the Production of Lithium-ion Batteries for Electric Vehicles in China, Sustainability, 9(4): 504.

[61]  Han Hao, Zongwei Liu, Fuquan Zhao, Yong Geng, Joseph Sarkis, 2017, Material flow analysis of lithium in China, Resources Policy, 51: 100-106.

[62]  Han Hao, Zongwei Liu, Fuquan Zhao, Jiuyu Du, Yisong Chen, 2017, Coal-derived alternative fuels for vehicle use in China: a review, Journal of Cleaner Production, 141: 774-790.

[63]  Han Hao, Zongwei Liu, Fuquan Zhao, 2017, An Overview of Energy Efficiency Standards in China’s Transport Sector, Renewable & Sustainable Energy Reviews, 67: 246-256.

[64]  Han Hao, Feiqi Liu, Zongwei Liu, Fuquan Zhao, 2016, Compression Ignition of Low-Octane Gasoline: Life Cycle Energy Consumption and Greenhouse Gas Emissions, Applied Energy, 181: 391-398.

[65]  Han Hao, Zongwei Liu, Fuquan Zhao, Weiqi Li, 2016, Natural gas as vehicle fuel inChina: a review, Renewable & Sustainable Energy Reviews, 62: 521-533.

[66]  Han Hao, Yong Geng, Joseph Sarkis, 2016, Carbon footprint of global passenger cars: Scenarios through 2050, Energy, 101: 121-131.

[67]  Han Hao, Yong Geng, Wen Hang, 2016, GHG emissions from primary aluminum production inChina: Regional disparity and policy implications, Applied Energy, 166: 264-272.

[68]  Wanxia Ren, Bing Xue, Yong Geng, Chengpeng Lu, Yunsong Zhang, Liming Zhang, Tsuyoshi Fujita, Han Hao, 2016, Inter-city passenger transport in larger urban agglomeration area: emissions and health impacts, Journal of Cleaner Production, 114: 412-419.

[69]  Ana Karmela Sumabat, Neil Stephen Lopez, Krista Danielle Yu, Han Hao, Richard Li, Yong Geng, Anthony S.F. Chiu, 2016, Decomposition analysis of Philippine CO₂ emissions from fuel combustion and electricity generation, Applied Energy, 164: 795-804.

[70]  Han Hao, Sinan Wang, Zongwei Liu, Fuquan Zhao, 2016, The impact of stepped fuel economy targets on automaker’s light-weighting strategy: theChinacase, Energy, 94: 755-765.

[71]  Fuquan Zhao, Han Hao, Zongwei Liu, 2016, Technology strategy to meetChina’s 5 L/100 km fuel consumption target for passenger vehicles in 2020, Clean Technologies and Environmental Policy, 18(1): 7-15.

[72]  Han Hao, Zongwei Liu, Fuquan Zhao, Weiqi Li, Wen Hang, 2015, Scenario analysis of energy consumption and greenhouse gas emissions fromChina's passenger vehicles, Energy, 91: 151-159.

[73]  Han Hao, Yong Geng, Weiqi Li, Bin Guo, 2015, Energy consumption and GHG emissions from China's freight transport sector: Scenarios through 2050, Energy Policy, 85: 94-101. (ESI高被引论文)

[74]  Han Hao, Michael Wang, Yan Zhou, Hewu Wang, Minggao Ouyang, 2015, Levelized costs of conventional and battery electric vehicles in china: Beijing experiences, Mitigation and Adaptation Strategies for Global Change, 20(7): 1229-1246.

[75]  Weiqi Li, Yaping Dai, Linwei Ma, Han Hao, Haiyan Lu, Rosemary Albinson, Zheng Li, 2015, Oil-saving pathways until 2030 for road freight transportation in China based on a cost-optimization model, Energy, 86: 369-384.

[76]  Yan Zhou, Larry Johnson, Michael Wang, Hewu Wang, Han Hao, 2015, Plug-In Electric Vehicle Market Penetration and Incentives: A Global Review, Mitigation and Adaptation Strategies for Global Change, 20(5): 777-795.

[77]  Jinhua Zhang, Fushen Hou, Lijin Zhao, Mengliang Li, Yueyun Xu, Han Hao, 2015, Technology evaluation of Chinese hybrid electric bus demonstration, Mitigation and Adaptation Strategies for Global Change, 20(5): 797-815.

[78]  Han Hao, Yong Geng, Xunmin Ou, 2015, Estimating CO₂ emissions from water transportation of freight in China, International Journal of Shipping and Transport Logistics, 7(6): 676-694.

[79]  Bin Guo, Yong Geng, Bernd Franke, Han Hao, Yaxuan Liu, Anthony Chiu, 2014, Uncovering China’s transport CO₂ emission patterns at the regional level, Energy Policy, 74: 134-146.

[80]  Han Hao, Xunmin Ou, Jiuyu Du, Hewu Wang, Minggao Ouyang, 2014, China's Electric Vehicle Subsidy Scheme: Rationale and Impacts, Energy Policy, 73: 722-732. (ESI高被引论文)

[81]  Han Hao, Yong Geng, Hewu Wang, Minggao Ouyang, 2014, Regional disparity of urban passenger transport associated GHG emissions inChina: A review, Energy, 69: 783-793.

[82]  Han Hao, Hewu Wang, Minggao Ouyang, 2012, Fuel consumption and life cycle GHG emissions byChina’s on-road trucks: Future trends through 2050 and evaluation of mitigation measures, Energy Policy, 43: 244-251.

[83]  Han Hao, Hewu Wang, Minggao Ouyang, 2011, Fuel conservation and GHG (Greenhouse gas) emissions mitigation scenarios forChina’s passenger vehicle fleet, Energy, 36(11): 6520-6528.

[84]  Han Hao, Hewu Wang, Minggao Ouyang, Fei Cheng, 2011, Vehicle survival patterns in China, Science China-Technological Sciences, 54(3): 625-629.

[85]  Han Hao, Hewu Wang, Minggao Ouyang, 2011, Comparison of policies on vehicle ownership and use between Beijing and Shanghai and their impacts on fuel consumption by passenger vehicles, Energy Policy, 39(2): 1016-1021. (IPCC第五次评估报告引用)

[86]  Han Hao, Hewu Wang, Ran Yi, 2011, Hybrid modeling ofChina's vehicle ownership and projection through 2050, Energy, 36(2): 1351-1361.

[87]  Han Hao, Hewu Wang, Lingjun Song, Xihao Li, Minggao Ouyang, 2010, Energy consumption and GHG emissions of GTL fuel by LCA: Results from eight demonstration transit buses in Beijing, Applied Energy, 87(10): 3212-3217.

[88]  Hewu Wang, Han Hao, Xihao Li, Ke Zhang, Minggao Ouyang, 2009, Performance of Euro III common rail heavy duty diesel engine fueled with Gas to Liquid, Applied Energy, 86(10): 2257-2261.