科研情况: ◉ 主要研究方向: 1、木质纤维素基先进功能材料; 2、离子选择性传输与盐差能高效转化; ◉ 近5年科研项目: 1、国家自然科学基金青年项目(22308030),基于孔-孔耦合效应的纤维素基多分子层纳米孔道阵列结构设计及其在盐差能转化中离子传输机制的研究,执行时间:2024.01-2026.12;在研,主持。 2、国家自然科学基金面上项目(22178123),基于非球形热厚颗粒高效高精度CFD-DEM的鼓泡床生物质快速热解特性研究,执行时间:2022.01-2025.12;在研,参与。 3、细胞化学湖南省重点实验室开放基金(2022xbhx02),基于植物组织细胞结构离子凝胶的制备及在生物传感中的应用,执行时间:2023.01-2024.12;在研,主持。 4、长沙理工大学科研启动项目,木材/离子交换树脂定向双通道离子传输路径的构建及其与盐差发电性能构效关系的研究,执行时间:2022.10-2025.10;在研,主持。 ◉ 近5年科研论文: [1] Luan P, Zhao Y, Li Q, Cao D, Wang Y, Sun X, Liu C, Zhu H*. Compressible Ionized Natural 3D Interconnected Loofah Membrane for Salinity Gradient Power Generation. (2021) Small. 2104320. [2] Luan P, Li J*, He S, Kuang Y, Mo L, Song T*. Investigation of deposit problem during sugarcane bagasse pulp molded tableware production. Journal of Cleaner Production. (2019) 237: 117856. [3] Luan P, Zhao X, Copenhaver K, Ozcanb S, Zhu H*. Turning abundant herbaceous biomass into advanced materials for sustainable future. Advanced Fiber Materials. (2022). [4] Liu C#, Luan P#, Li Q#, Cheng Z, Sun X, Cao D, Zhu H*. Biodegradable, hygienic, and compostable tableware from hybrid sugarcane and bamboo fibers as plastic alternative. Matter. (2020) 3(6):2066-79. [5] Liu C, Luan P, Li Q, Cheng Z, Xiang P, Liu D, Hou Y, Yang Y, Zhu H*. Biopolymers derived from trees as sustainable multifunctional materials: a review. Advanced Materials. (2020) 2001654. [6] Luan P#, Liao J#, Chen L, Kuang Y, Zhang X, Zhang Y, Zhu Y, Dai Y, Mo L, Li J*. Facile and sustainable modification for improving the adsorption ability of sugarcane bagasse towards cationic organic pollutants. Biomass Conversion and Biorefinery. (2022). [7] Liao J#, Luan P#, Zhang Y, Chen L, Huang L, Mo L, Li J*, Xiong Q*. A lightweight, biodegradable, and recyclable cellulose-based bio-foam with good mechanical strength and water stability. Journal of Environmental Chemical Engineering. (2022) 107788.
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