膜
纳米纤维素
材料科学
纤维素
化学工程
细菌纤维素
生物污染
纤维
表面改性
热稳定性
纳米技术
化学稳定性
聚合物
工作(物理)
膜污染
结垢
合成膜
功率密度
作者
Xueyuan Guo,Fengjiao Xu,Zhenbo Yuan,Liang Zhang,Jian Liu,Xiaoyan Ma,Chao Teng
标识
DOI:10.1021/acsaenm.5c01165
摘要
The utilization of biomass-derived native cellulose to fabricate freestanding membranes has garnered increasing attention in the field of osmotic-energy harvesting. However, the poor film-forming stability and low surface charge density of natural fiber membranes severely restrict their practical performance. Here, a kelp membrane with a nanocellulose structure was prepared by dissolution-regeneration, followed by 2,2,6,6-tetramethylpiperidin-1-oxyl (TEMPO)-mediated oxidation. Chemically engineered and integrated TEMPO-Kelp cellulose nanofibril (KCNF) membranes deliver an output power density of 5.2 W m–2 while retaining 97.9% of their initial performance over 2000 s of continuous operation owing to the abundant negatively charged carboxylate groups. The membranes demonstrate robust adaptability across diverse saline environments in China, achieving an impressive 6.2 W m–2 in natural seawater. This work highlights TEMPO-mediated oxidation to prepare natural native celluloses for high-efficiency energy-conversion applications.
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