展可 讲师

研究方向：木材保护与改性、生物质复合材料

邮箱：kezhan@swfu.edu.cn

教育/工作经历

2026年-至今 suncitygroup太阳集团网站，讲师

2021年-2025年 美国奥本大学，获工学博士学位

2018年-2021年 suncitygroup太阳集团网站，获工学硕士学位

2013年-2017年 suncitygroup太阳集团网站，获工学学士学位

科研工作及成果

近年主要围绕木材功能性改良、高分子复合材料等方向开展研究工作。累计发表 SCI 论文 20 余篇，其中以第一作者身份发表 SCI 论文 7 篇。

奖励及荣誉称号

    2025年，美国奥本大学林学院Harry Murphy奖。

    2025年，美国奥本大学学术研讨会林学院最佳口头汇报奖。

    2022年，云南省优秀硕士学位论文。

    2021年，suncitygroup太阳集团网站优秀研究生。

    2019年，第八届全国生物质材料科学技术与学术研讨会优秀研究生论文报告奖。

学术成果展示

1. 代表性论文：

[1] Ke Zhan, Tanmay, Rahman, Daniel Meadows, Edward Davis, Virginia Davis, Bryan S. Beckingham, Ruiqing Miao, Thomas Elder, Brian Via, Yucheng Peng. Reclaiming polyethylene from multilayer plastic packaging by separating oxygen barrier material using solvent-based selective dissolution: recycling polyethylene for property characterization. ACS Sustainable Chemistry & Engineering 2026, 14, 4, 1858-1872

[2] Ke Zhan, Daniel Meadows, Lindsay Levy, Raymond Hou, Tanmay Rahman, Virginia Davis, Edward Davis, Bryan S Beckingham, Brian Via, Thomas Elder, Yucheng Peng. Impact of thermomechanical reprocessing on multilayer plastic packaging blend. Polymer Degradation and Stability 2024, 110710.

[3] Ke Zhan, Yucheng Peng, Thomas Elder. Enhancing polypropylene/high-density polyethylene blend performance through the incorporation of microcrystalline cellulose-based core-shell particles at the interface. Composites Part A: Applied Science and Manufacturing 2025, 109103.

[4] Ke Zhan, Thomas Elder, and Yucheng Peng. Enhancing polypropylene/polyethylene blend performance through compatibilization for a sustainable future: a mini review focusing on establishing bio-derived filler-based hybrid compatibilizer system. Macromolecular Rapid Communications 2024, 2400724.

[5] Ke Zhan, Pixiang Wang, Xueqi Wang, Xiaomeng Li, Shaoyang Liu, Thomas Elder, Brian Via, Chuanbing Tang, Yucheng Peng. Morphology‐controlled rheological and non‐isothermal crystallization behaviors in immiscible polypropylene/high density polyethylene blends. Macromolecular Chemistry and Physics 2025, e00147.

[6] Ke Zhan, Sengwei Xia, Quanxiong Lu, Ruifeng Cheng, Haiqiu Jiang, Tengfei Yi, Jeffrey Morrell, Long Yang, Linkun Xie, Hong Lei, Guanben Du, Wei Gao. Superhydrophobic wood surface fabricated by Cu₂O nano-particles and stearic acid: its acid/alkali and wear resistance. Holzforschung 2021, 75(10):917-931.

 [7] Ke Zhan, Sengwei Xia, Quanxiong Lu, Congnan Guo, Sisi Zhao, Wei Gao, Long Yang, Jeffrey J Morrell, Tengfei Yi, Linkun Xie, Hong Lei, Guanben Du. A cost effective strategy to fabricate STA@PF@Cu₂O hierarchical structure on wood surface: aimed at superhydrophobic modification. Wood Science and Technology 2021, 55:565-583.