Cellular Structured CNTs@SiO<sub>2</sub> Nanofibrous Aerogels with Vertically Aligned Vessels for Salt‐Resistant Solar Desalination

Dong, Xiangyang; Cao, Leitao; Si, Yang; Deng, Hongbing

doi:10.1002/adma.201908269

Cited by 275 publications

(204 citation statements)

References 55 publications

(47 reference statements)

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“…For example, a CNTs@SiO 2 nanofiber aerogel (CNFAs) has excellent water transport and salt mitigation capabilities due to its vertically arranged and interconnected honeycomb structure. [ 99 ] The SiO 2 nanofibers obtained by electrospinning and subjected to freeze‐drying treatment to further obtain SiO 2 aerogels. The porosity of the aerogel formed by the close connection with CNTs through the dip‐coating is as high as 99.7%, which provides a large number of channels for the transportation of water and salt.…”

Section: Salt Mitigation Strategiesmentioning

confidence: 99%

Salt Mitigation Strategies of Solar‐Driven Interfacial Desalination

Wang

et al. 2020

Adv Funct Materials

167

102

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Solar‐driven interfacial desalination (SDID), which is based on localized heating and interfacial evaporation, provides an opportunity for developing environmentally friendly and cost‐effective seawater thermal desalination. However, localized heating and rapidly generated interfacial steam may cause salt to accumulate on the evaporator's surface and block the channel of steam evaporation. Salt accumulation inevitably reduces the light absorption and service period of the solar absorber, resulting in a significant decrease in evaporation efficiency over time. Salt accumulation makes it difficult to produce SDID devices with high energy efficiency and long‐term stability for large‐scale use in remote poverty‐stricken areas. Therefore, the exploration of novel and effective strategies for addressing salt accumulation through both material design and structural engineering has attracted more attention in recent years. This review presents an overview of the state‐of‐the‐art advancements in salt‐resistant photothermal evaporation and discusses the critical issues for achieving salt mitigation SDID, focusing on the classification of salt mitigation strategies based on photothermal evaporation configurations, the basic mechanism of salt mitigation, and the architectural design of photothermal materials. Finally, the important challenges and prospects of SDID are discussed to providing a meaningful roadmap to efficient salt mitigation SDID.

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Section: Salt Mitigation Strategiesmentioning

confidence: 99%

Salt Mitigation Strategies of Solar‐Driven Interfacial Desalination

Wang

et al. 2020

Adv Funct Materials

167

102

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“…Solar‐powered vapor generation and desalination, which is an economical strategy that mainly utilizes solar energy and ultra‐black materials with efficient light absorption and photothermal conversion properties in solar band, is used to powerfully accelerate the evaporation of water and collect water and thereby solve the crises of drinking water shortage and water pollutions. [ 18–21 ] In the last few years, some evaporators based on different photothermal materials such as metal nanoparticles, [ 22–26 ] semiconductors, [ 27–30 ] polymers, [ 31–35 ] carbon materials, [ 36–48 ] and MXene [ 49–52 ] have been reported. However, most evaporators with high water evaporation rates and photothermal conversion efficiencies have some limitations in practical application scenarios, such as the use of expensive metals (Au and Ag) to enhance light absorption and photothermal conversion, strict and complex preparation processes to achieve microstructural control, and poor durability when used for solar‐powered desalination.…”

Section: Introductionmentioning

confidence: 99%

Biomimetic Ultra‐Black Sponge Derived from Loofah and Co‐MOF for Long‐Term Solar‐Powered Vapor Generation and Desalination

Wang

Zhang

et al. 2021

Solar RRL

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Designing ultra‐black materials with strong and broadband light absorption and efficient photothermal conversion properties is of great importance in many fields, including camouflage, catalysis, thermal therapy, and solar energy conversion. The West African Gaboon viper (Bitis rhinoceros), a master of camouflage, features black spots on its dorsal scales. The crest‐ridge structure in its black scales has been proven to be a typical antireflection structure. Herein, an artificial biomimetic ultra‐black sponge (BUBS) that imitates the crest‐ridge structure in the black scales of B. rhinoceros is successfully fabricated through growth of vertically aligned carbon nanosheet arrays derived from cobalt‐based metal–organic framework (Co‐MOF) on a loofah sponge. The vertically aligned carbon nanosheet arrays result in enhanced broadband light absorption (up to 97.08% on average) and photothermal conversion (equilibrium temperature of 80.7 °C under 1 sun illumination) of BUBS. Benefiting from its efficient light absorption and photothermal conversion, the BUBS is incorporated into solar‐powered vapor generation and desalination devices. The BUBS shows a higher water evaporation rate and efficiency of 1.93 kg m−2 h−1 and 98.5%, respectively, compared with other state‐of‐the‐art devices under 1 sun illumination. Furthermore, the BUBS also shows continuous and high water evaporation rates and excellent salt‐rejection in various brines, ensuring its potential application in solar‐powered desalination.

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“…The most investigated evaporators based on porous structures are too fragile to sustain the high durability and reusability requirement as a solar evaporator. [12,17,34,36] Therefore, for further practical application, an all-in-one solar evaporator with high evaporation rate, superior salt-rejecting property, simple preparation process as well as excellent durable performance, is worth further investigation.…”

Section: Introductionmentioning

confidence: 99%

3D Printing a Biomimetic Bridge‐Arch Solar Evaporator for Eliminating Salt Accumulation with Desalination and Agricultural Applications

et al. 2021

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Solar‐driven water evaporation has been considered a sustainable method to obtain clean water through desalination. However, its further application is limited by the complicated preparation strategy, poor salt rejection, and durability. Herein, inspired by superfast water transportation of the Nepenthes alata peristome surface and continuous bridge‐arch design in architecture, a biomimetic 3D bridge‐arch solar evaporator is proposed to induce Marangoni flow for long‐term salt rejection. The formed double‐layer 3D liquid film on the evaporator is composed of a confined water film for water supplementation and a free‐flowing water film with ultrafast directional Marangoni convection for salt rejection, which functions cooperatively to endow the 3D evaporator with all‐in‐one function including superior solar‐driven water evaporation (1.64 kg m‐2 h‐1, 91% efficiency for pure water), efficient solar desalination, and long‐term salt‐rejecting property (continuous 200 h in 10 wt% saline water) without any post‐cleaning treatment. The design principle of the 3D structures is provided for extending the application of Marangoni‐driven salt rejection and the investigation of structure‐design‐induced liquid film control in the solar desalination field. Furthermore, excellent mechanical and chemical stability is proved, where a self‐sustainable and solar‐powered desalination–cultivation platform is developed, indicating promising application for agricultural cultivation.

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Cellular Structured CNTs@SiO₂ Nanofibrous Aerogels with Vertically Aligned Vessels for Salt‐Resistant Solar Desalination

Cited by 275 publications

References 55 publications

Salt Mitigation Strategies of Solar‐Driven Interfacial Desalination

Salt Mitigation Strategies of Solar‐Driven Interfacial Desalination

Biomimetic Ultra‐Black Sponge Derived from Loofah and Co‐MOF for Long‐Term Solar‐Powered Vapor Generation and Desalination

3D Printing a Biomimetic Bridge‐Arch Solar Evaporator for Eliminating Salt Accumulation with Desalination and Agricultural Applications

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Cellular Structured CNTs@SiO2 Nanofibrous Aerogels with Vertically Aligned Vessels for Salt‐Resistant Solar Desalination

Cited by 275 publications

References 55 publications

Salt Mitigation Strategies of Solar‐Driven Interfacial Desalination

Salt Mitigation Strategies of Solar‐Driven Interfacial Desalination

Biomimetic Ultra‐Black Sponge Derived from Loofah and Co‐MOF for Long‐Term Solar‐Powered Vapor Generation and Desalination

3D Printing a Biomimetic Bridge‐Arch Solar Evaporator for Eliminating Salt Accumulation with Desalination and Agricultural Applications

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Product

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Cellular Structured CNTs@SiO₂ Nanofibrous Aerogels with Vertically Aligned Vessels for Salt‐Resistant Solar Desalination