一、论文(按发表时间排序)
[1]Guo T,Liu P*,Wang C, Xie J, Du J, Lim M.K. Toward sustainable port-hinterland transportation: A holistic approach to design modal shift policy mixes [J].Transportation Research Part A: Policy and Practice, 2023, 174: 103746.(SSCI1区,ABS 3)
[2]Chen J, Zhang F, Yue G, Zhou T,Liu P. Complex Network-Based Genetic Algorithm for Optimization,第42届中国控制会议(CCC), 2023(EI)
[3]Chen J,Liu P*, Zhou H, and Jiang Z, Exploring the patterns of prefabrication technology diffusion among construction enterprises: A two-stage evolutionary model on a complex network,建设与房地产管理国际学术讨论会(ICCREM 2023), 2023(EI)
[4]He W,Liu P*, Lin B, Zhou H, Chen X. Green finance support for development of green buildings in China: Effect, mechanism, and policy implications [J].Energy Policy, 2022, 165:112973.(SSCI1区,ABS 2)
[5]Li X, Du J,Liu P, Wang C*, Hu X, Ghadimi P. Optimal choice of power battery joint recycling strategy for electric vehicle manufacturers under a deposit-refund system [J].International Journal of Production Research, 2022, 2148009.(中科院工程技术类SCI2区TOP)
[6]Zhang S, Mu D*,Liu P. Impact of charging and reward-penalty policies on household recycling: A case study in China [J].Resources, Conservation and Recycling, 2022, 185: 106462.(中科院生态环境类SCI1区TOP)
[7]Liu P,Wang C*, Xie J, Mu D, Lim M.K. Towards green port-hinterland transportation: Coordinating railway and road infrastructure in Shandong Province, China [J].Transportation Research Part D: Transport and Environment, 2021, 94: 102806.(SSCI1区,ABS 3)
[8]Liu P, Lin B*, Zhou H, Wu X, Little J.C. CO2emissions from urban buildings at the city scale: System dynamic projections and potential mitigation policies[J].Applied Energy, 2020, 277: 115546.(中科院工程技术类SCI1区TOP)
[9]Wu X, Lin B*, Papachristos G,Liu P, Zimmermann N, A holistic approach to evaluate building performance gap of green office buildings: A case study in China[J].Building and Environment,2020:106819.(中科院工程技术类SCI1区)
[10]Papachristos G*, Jain N, Burman E, Zimmerman N, Wu X,Liu P, Mumovic D, Lin B, Davies M, Edkins A. Low carbon building performance in the construction industry: a multi-method approach of system dynamics and building performance modelling[J].Construction Management and Economics, 2020, 38(9):856-876.(EI)
[11]Liu P, Lin B*, Wu X, Zhou H. Bridging energy performance gaps of green office buildings via more targeted operations management: a system dynamics approach[J].Journal of Environmental Management, 2019,238: 64-71.(中科院生态环境类SCI1区TOP, ABS 3)
[12]Liu P, Liu C, Du J. Mu D*. A system dynamics model for emissions projection of hinterland transportation[J].Journal of Cleaner Production, 2019, 218: 591-600.(中科院生态环境类SCI1区)
[13]刘沛,武晓影,林波荣*, Zimmermann N, Papachristos G.基于系统动力学的绿色办公建筑性能差异分析方法及应用[J].暖通空调, 2019,49(03):14-20. (中文核心)
[14]周浩,刘沛,林波荣*,乔渊,李超.基于技术发展和用户需求分析的绿色建筑内涵拓展方向探讨[J].建筑节能, 2019,47(01):1-8. (中文核心)
[15]刘沛,穆东,夏辉.基于系统动力学的区域运输多主体利益协调[J].计算机集成制造系统. 2016,22(3):859-869.(EI)
[16]刘沛,穆东.港口陆路集疏运系统的演化机理——基于基础设施投资政策[J].软科学. 2016,30(6):119-123.(CSSCI)
[17]刘沛,穆东,苏捷.区域港口集疏运系统资源整合的动力学机理[J].系统管理学报, 2015,24(3):444-451.(CSSCI)
[18]Liu P, Mu D. Evaluating sustainability of truck weight regulations: A system dynamics view[J].Journal of Industrial Engineering and Management, 2015,8(5):1711-1730.(EI)
二、著作
1.刘沛,穆东.港口干散货陆路集疏运资源低碳整合研究[M].北京交通大学出版社. 2017.
