肖昌仁,男,博士,讲师,研究领域为动力电池热设计以及热安全防控,以第一作者以及通讯作者发表学术论文7篇,其中影响因子大于10论文1篇,影响因子大于5论文6篇,特邀综述1篇。围绕动力电池控温/均温用相变材料相变后易泄漏、易坍塌等问题,从分子结构设计出发、设计并制备了一种具有三维交联主链+脂肪烃基侧链的新型高分子相变储能材料,改材料在吸收热能相变过程中发生固-固相转变,很好的解决了相变组分易泄漏、形貌易坍塌、体积易膨胀等热稳定性问题,为相变材料电池热管理系统的工业化推广带来了新的可能。
邮箱:xiaochangren@jgsu.edu.cn
主讲课程:
目前承担本科生课程《普通化学》《高分子化学》《物理化学》《材料科学基础》的教学工作。
主要研究方向:
1. 动力电池热设计以及热安全防控
2. 动力电池材料与器件
近5年代表性成果:
(1) Jingwen Weng#, Changren Xiao#, Dongxu Ouyang, Xiaoqing Yang*, Mingyi Chen, Guoqing Zhang, Jian Wang*. An energy-saving battery thermal management strategy coupling tubular phase-change-material with dynamic liquid cooling under different ambient temperatures, Renewable Energy, 2022, 195, 918-930.
(2) Changren Xiao, Guoqing Zhang, Zhenghui Li, Xiaoqing Yang*. Custom design of solid–solid phase change material with ultra-high thermal stability for battery thermal management. Journal of Materials Chemistry A, 2020, 8, 14624.
(3) Changren Xiao, Xihong Wu, Xinlong Dong, Guohua Ye, Guoqing Zhang, Xiaoqing Yang*. Ultra-reliable composite phase change material for battery thermal management derived from a rationally-designed phase changeable and hydrophobic polymer skeleton. ACS Applied Energy Materials, 2021, 4, 3832–3841.
(4) Changren Xiao, Shaojun Li, Shengtian Zhu, Guoqing Zhang, Xiaoqing Yang*. Series of solid-solid phase change materials with ultra-high thermal stability and controllable phase change temperature: kilogram-leveled preparation and application investigation. Journal of Energy Storage, 2021, 36, 102405.
(5) Changren Xiao, Shengtian Zhu, Guoqing Zhang, Xiaoqing Yang*. The application research progress of functional polymer in phase change materials, Journal of Functional Polymers, 2021, 4, 1-16.
(6) Xinlong Dong, Binghe Zheng, Guoqing Zhang, Changren Xiao*, Xiaoqing Yang*. Preparation of quasi-thermoplastic phase change polymer with intrinsic anti-leakage performance for battery thermal management, Advanced Materials Interfaces, 2021, Accepted.
(7) Changren Xiao, Zijun Tan, Cong Wang, Xiaoqing Yang*, Guoqing Zhang, Huagen Pan. Fabrication of In2O3/TiO2 nanotube arrays hybrids with homogeneously developed nanostructure for photocatalytic degradation of Rhodamine B. Materials Research Bulletin, 2018, 106, 197-203.
