主持和参与基金项目
(1) 辽宁省教育厅,国家项目培育基金,LJ212410153005,基于仿生多相限域的柔性智能感知材料的调控制备及严寒环境下健康监测关键技术研究,2024.9至2026.9 (2) 辽宁省教育厅, 基本科研项目(青年项目), LJKQZ2021060, 贻贝仿生启示下“多层夹心式”绿色高效染料废水分离膜的构筑及机理研究, 2021-07 至 2024-06 (3) 辽宁省科技厅, 博士启动基金, 2020-BS-158, 基于碳纳米管/β-环糊精的复合正渗透膜制备及性能研究, 2020-05 至 2022-04 (4) 横向项目, 22-08-131, 光固化高弹耐候型聚脲防水涂料的开发及应用技术研究, 2022-09 至 2024-09 (5) 横向项目, 22-08-104, 环境友好自然修复建筑涂料关键技术研究,2022-07 至 2024-07 (6)辽宁省科技厅, 重点面上项目, 2023JH2/101600057, TiO2电子传输层的界面调控对钙钛矿太阳电池光伏性能影响的研究, 2023-01 至 2026-12 (7) 国家自然科学基金委员会, 面上项目, 52278453, 地聚合物沥青温拌剂的类沸石结构演变及温拌机理, 2023-01 至 2026-12 (8) 辽宁省委人才办, “兴辽英才计划”科技项目, XLYC2002005, 先进材料制备与性能研究, 2021-01至 2023-12 (9) 辽宁省教育厅, 面上项目, lnfw202014, 石墨烯改性水性聚氨酯防腐涂料的制备及应用研究, 2020-08 至 2023-07 (10) 辽宁省教育厅, 基本科研项目(面上项目), LJKZ0593, 低温相变储能材料在石膏基自流平砂浆中的应用关键技术研究, 2021-07 至 2023-06
学术论文:
[1] Zhenchun Li, Peng Liu*, Shaowei Chen, et al. Polyvinyl alcohol/chitosan based nanocomposite organohydrogel flexible wearable strain sensors for sports monitoring and underwater communication rescue. International Journal of Biological Macromolecules, 258 (2024) 129054. [2] Zhenchun Li, Peng Liu*, Shaowei Chen, et al. Highly elastic, frostresistant and antimicrobial flexible sensor inspired by ramen noodles for human motion detection and deep learning of handwritten content. Microchemical Journal 196 (2024) 109614. [3] Zhenchun Li, Peng Liu*, Shaowei Chen, et al. High strength, anti-freeze, transparent and recyclable composite organohydrogel for flexible strain sensor. Reactive and Functional Polymers 190 (2023) 105644. [4] Zhenchun Li, Peng Liu*, S. Chen, et al. High-Strength, Freeze-Resistant, Recyclable, and Biodegradable Polyvinyl Alcohol/Glycol/Wheat Protein Complex Organohydrogel for Wearable Sensing Devices. Biomacromolecules 2023, 24, 8, 3557–3567. [5] Zhenchun Li, Peng Liu*, Shaowei Chen, et al. Bioinspired marine antifouling coatings: Antifouling mechanisms, design strategies and application feasibility studies. European Polymer Journal, 2023, 190:111997. [6] Zhenchun Li, Peng Liu*, Xiangyu Li, et al. Design strategies for environmentally friendly polyvinyl alcohol hydrogel sensors: Research progress and Perspectives, Materials Today Communications,39 (2024) 109401. [7] Feihong Li, Peng Liu*, Xiangyu Li, et al. High tough, self-adhesive, conductive double network hydrogel for flexible strain sensors, Journal Polymer Science. 2024, 62(18)165-4176. [8] Enyuan Cui, Peng Liu*, Jiaozhu Yu, et al. Highly Tough, Freeze Resistant, Sensitive, and Recyclable Starch based Multifunctional Hydrogel Flexible Wearable Sensor for Human Motion Monitoring, Journal of Polymers and the Environment, 32 (2024) 5344–5359. [9] Peng Liu*, Yuanyuan Bi, Shaowei Chen, et al. Preparation and Performance of Organically Modified Montmorillonite Composite Separation Membrane, Journal of Wuhan University of Technology-Mater. Sci. Ed. 39, 1100–1107 (2024) [10] Liu Peng*, MAO Junpeng, YU Yunwu, et al. Preparation of modified composite nanofiltration membrane synergistically using carboxylic multi-walled carbon nanotube and β-cyclodextrin, Journal of Wuhan University of Technology-Mater. Sci. Ed. 2024 [11] Shaowei Chen, Peng Liu*, Zhenchun Li, et al. Preparation and Performance of Composite Nanofiltration Membrane Modified by Mussel Coating. Journal of Polymers and the Environment, 2023, 23:2928. [12] Shaowei Chen, Peng Liu*, Zhenchun Li, et al. Biomimetic mussel technology for membrane material modification: Adhesion mechanism and design strategy. J. Polym. Sci., 2023, 61(22):2815-2827. [13] Y. Liu, Y. Lu, Z. Fan, Y. Gu, Y. Wan, Y. Yu, Peng Liu*, Preparation and performance study of organosilicon fluorine modified acrylate emulsion, Journal of Dispersion Science and Technology, 2024, 1-9. [14] Shaowei Chen, Peng Liu*, Zhenchun Li, et al. Preparation and performance of “three-layer sandwich” composite loose nanofiltration membrane based on mussel bionic technology". Journal of Polymer Engineering, 2023, 43(7): 613-626. [15] Y. Gu, Y. Liu, Z. Fan, J. Gui, Peng Liu*, H. Wang. Influence of βnucleating Compound Agents on the Mechanical Properties and Crystallization Behavior of Polypropylene Random Copolymer. J. Wuhan Univ. Technol.-Mat. Sci. Edit. 38, 237–243 (2023). [16] Yunxue Liu, Xiaotian Kang, Zhaorong Fan, Peng Liu*. Preparation and performance of graphene oxide modified polyurethane thermal conductive insulating adhesive, J. Wuhan Univ. Technol.-Mat. Sci. Edit. 2022, 37(5):1025-1031. [17] P Liu*, S Zhang, R Han, et al. Effect of Additives on the Performance of PPBES Composite Forward Osmosis Hollow Fiber Membranes. ACS Omega, 2020, 5 (36): 23148–23156. [18] P Liu*, W Niu, L Wang, et al. Influence of casting solution formula on the performance of novel polyacrylonitrile/polysulfone blend ultrafiltration membrane. Journal of Polymer Research, 2020, 27(8): 213. [19] P Liu*, J. Yu, Influence of modifying interfacial polymerization compositions on the performance of composite forward osmosis hollow fiber membranes, Journal of Polymer Research, 2019, 26(3):60-70. [20] P Liu*, S. Zhang, Y. Wang, Y. Yu, X. Gao, Preparation and characterization of thermally stable copoly(phthalazinone biphenyl ether sulfone) hollow fiber ultrafiltration membranes, Applied Surface Science, 2015. 4.30, 335: 189~197. [21] S. Zhang, P. Liu, Y. Chen, J. Jin, L. Hu, X. Gao, Preparation of thermally stable composite forward osmosis hollow fiber membranes based on copoly(phthalazinone biphenyl ether sulfone) substrates, Chemical Engineering Science, 2017, 166: 91~100.
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