杂原子
吸附
多孔性
碳纤维
化学工程
材料科学
联氨(抗抑郁剂)
化学
多孔介质
纳米材料
纳米技术
食品包装
比表面积
检出限
表面电荷
作者
Jialu Fang,Xinyi Mei,Jun Sun,Ping Hu,Yu Long,Wei Zheng,Haiming Duan,Zhaofeng Wu
出处
期刊:Small
[Wiley]
日期:2026-01-30
卷期号:22 (18): e12217-e12217
标识
DOI:10.1002/smll.202512217
摘要
This study develops a high-performance room-temperature (RT) hydrazine (N2H4) gas sensing material based on sustainable algal biomass. A porous carbon material (US-1.5) was fabricated from Undaria pinnatifida and sodium alginate via ice-templating and freeze-drying, yielding a hierarchical meso/macroporous structure that facilitates gas diffusion. Natural heteroatoms enable in situ self-doping, modulating electronic structure and surface reactivity. First-principles calculations confirm S-doping enhances adsorption energy and promotes charge transfer, creating more active sites for gas-surface interactions. The resulting US-1.5 sensing material demonstrates a high response of 22.53k% to 500 ppm N2H4, rapid response/recovery times (21.3 s/2.5 s), a low detection limit of 0.138 ppm, excellent selectivity, and cycling stability. It also shows humidity-dependent dual-mode sensing. This work pioneers algal aerogel-derived sensing materials, demonstrating marine waste upcycling for green, cost-effective gas sensing in environmental and industrial safety applications.
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