Fully Floatable Mortise‐and‐Tenon Architecture for Synergistically Photo/Sono‐Driven Evaporation Desalination and Plastic‐Enabled Value‐Added Co‐Conversion of H2O and CO2

Yingying Li; Tongrong Yao; Yanqiu Wang; Jiahui Chen; Haining You; Jing Lu; Yi Xiong; Zhongduo Xiong; Jia Liu; Yajuan Qi; Wenwen Wang; Dong Wang

doi:10.1002/advs.202404423

Advanced Science (Aug 2024)

Fully Floatable Mortise‐and‐Tenon Architecture for Synergistically Photo/Sono‐Driven Evaporation Desalination and Plastic‐Enabled Value‐Added Co‐Conversion of H2O and CO2

Yingying Li,
Tongrong Yao,
Yanqiu Wang,
Jiahui Chen,
Haining You,
Jing Lu,
Yi Xiong,
Zhongduo Xiong,
Jia Liu,
Yajuan Qi,
Wenwen Wang,
Dong Wang

Affiliations

Yingying Li: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China
Tongrong Yao: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China
Yanqiu Wang: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China
Jiahui Chen: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China
Haining You: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China
Jing Lu: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China
Yi Xiong: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China
Zhongduo Xiong: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China
Jia Liu: Multifunctional Electronic Ceramics Laboratory College of Engineering Xi'an International University Xi'an 710077 China
Yajuan Qi: College of Science Wuhan University of Science and Technology Wuhan 430081 China
Wenwen Wang: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China
Dong Wang: Key Laboratory of Textile Fiber and Products Ministry of Education Wuhan Textile University Wuhan 430200 China

DOI: https://doi.org/10.1002/advs.202404423
Journal volume & issue: Vol. 11, no. 29
pp. n/a – n/a

Abstract

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Abstract Establishing an advanced ecosystem incorporating freshwater harvesting, plastic utilization, and clean fuel acquisition is profoundly significant. However, low‐efficiency evaporation, single energy utilization, and catalyst leakage severely hinder sustainable development. Herein, a nanofiber‐based mortise‐and‐tenon structural Janus aerogel (MTSJA) is strategically designed in the first attempt and supports Z‐scheme catalysts. By harnessing of the upper hydrophilic layer with hydrophilic channels embedding into the hydrophobic bottom layer to achieve tailoring bottom wettability states. MTSJA is capable of a fully‐floating function for lower heat loss, water supply, and high‐efficiency solar‐to‐vapor conversion. Benefiting from the ultrasonic cavitation effect and high sensitivity of materials to mechanical forces, this is also the first demonstration of synergistic solar and ultrasound fields to power simultaneous evaporation desalination and waste plastics as reusable substrates generating fuel energy. The system enables persistent desalination with an exceptional evaporation rate of 3.1 kg m−2 h−1 and 82.3% efficiency (21 wt.% NaCl solution and 1 sun), and realizes H2, CO, and CH4 yields with 16.1, 9.5, and 3 µmol h−1 g−1, respectively. This strategy holds great potential for desalination and plastics value‐added transformation toward clean energy and carbon neutrality.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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