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Borophene Embedded Cellulose Paper for Enhanced Photothermal Water Evaporation and Prompt Bacterial Killing.

Xinwei GuanPrashant KumarZhixuan LiThi Kim Anh TranSumit ChahalZhihao LeiChien-Yu HuangChun-Ho LinJing-Kai HuangLong HuYuan-Chih ChangLi WangJolitta S J BrittoLogeshwaran PanneerselvanDewei ChuTom WuAjay KarakotiJiabao YiAjayan Vinu
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2023)
Solar-driven photothermal water evaporation is considered an elegant and sustainable technology for freshwater production. The existing systems, however, often suffer from poor stability and biofouling issues, which severely hamper their prospects in practical applications. Conventionally, photothermal materials are deposited on the membrane supports via vacuum-assisted filtration or dip-coating methods. Nevertheless, the weak inherent material-membrane interactions frequently lead to poor durability, and the photothermal material layer can be easily peeled off from the hosting substrates or partially dissolved when immersed in water. In the present article, the discovery of the incorporation of borophene into cellulose nanofibers (CNF), enabling excellent environmental stability with a high light-to-heat conversion efficiency of 91.5% and water evaporation rate of 1.45 kg m -2 h -1 under simulated sunlight is reported. It is also demonstrated that borophene papers can be employed as an excellent active photothermal material for eliminating almost 100% of both gram-positive and gram-negative bacteria within 20 min under three sun irradiations. The result opens a new direction for the design of borophene-based papers with unique photothermal properties which can be used for the effective treatment of a wide range of wastewaters.
Keyphrases
  • photodynamic therapy
  • cancer therapy
  • drug release
  • drug delivery
  • small molecule
  • ionic liquid
  • high throughput