3D Janus structure MXene/cellulose nanofibers/luffa aerogels with superb mechanical strength and high-efficiency desalination for solar-driven interfacial evaporation

• Published in: Journal of colloid and interface science Vol. 645; pp. 306 - 318
• Main Authors: Wang, Pei-Lin, Zhang, Wei, Yuan, Qi, Mai, Tian, Qi, Meng-Yu, Ma, Ming-Guo
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 01.09.2023
• Subjects: Aerogels; biomass; Cellulose nanofibers; desalination; durability; evaporation rate; freeze drying; Interface water evaporation; Janus structure; lighting; Photothermal conversion; skeleton; steam; strength (mechanics); Ti3C2Tx MXene; water shortages; wettability; Aerogels; Interface water evaporation; Ti3C2Tx MXene; Janus structure; Photothermal conversion; Cellulose nanofibers; TiCT(x) MXene
• ISSN: 0021-9797; 1095-7103; 1095-7103
• DOI: 10.1016/j.jcis.2023.04.081

Janus MXene-decorated CNFs/luffa (JMCL) aerogel integrated the multifunction of fast water transport, good thermal management, fast vapor escape, and efficient photothermal conversion in a single-module. The hydrophobic lower part and hydrophilic upper part perform complementary functions, endowing the JMCL aerogel with high sunlight-to-heat-to-vapor conversion efficiency and self-floating performance. The JMCL aerogels delivered a water evaporation rate of 1.40 kg m-2h−1 and an efficiency of 91.20% under 1 sun illumination. In addition, the mechanical strength of JMCL aerogels is 437 times that of MXene/CNFs aerogels. The excellent salt resistance during 24h working and long-term solar vapor generation of up to 28 days were achieved. [Display omitted] Interfacial solar steam generation (ISSG) is considered to be an attractive technique to address the water shortage. However, developing a sustainable thermal management, salt rejection, and excellent mechanical strength ISSG device for long-term stability desalination is still a challenge. Herein, a biomass ISSG device with superb mechanical properties was prepared by introducing a luffa sponge as the skeleton and constructing the MXene/cellulose nanofibers (CNFs) aerogels via freeze-drying. The Janus MXene-decorated CNFs/luffa (JMCL) aerogels integrated the multifunction of fast water transport, good thermal management, and efficient photothermal conversion in a single module, to achieve high-efficiency desalination. 3D Janus structure endowed the JMCL aerogel with opposite wettability, which is feasible to construct the localized photothermal generation and self-floating. The mechanical strength of JMCL aerogels is 437 times that of MXene/CNFs aerogels. The JMCL aerogels delivered a water evaporation rate of 1.40 kg m-2h−1 and an efficiency of 91.20% under 1 sun illumination. The excellent salt resistance during 24 h working and long-term solar vapor generation of up to 28 days were achieved. The multifunctional JMCL aerogels with 3D Janus structure offer new insights for developing good durability and eco-friendly biopolymer-based steam generators.