Nature Sunflower Stalk Pith with Zwitterionic Hydrogel Coating for Highly Efficient and Sustainable Solar Evaporation

Su, Xin; Hao, Dezhao; Sun, Mingyue; Wei, Tingshu; Xu, Dake; Ai, Xuan; Guo, Xinglin; Zhao, Tong; Jiang, Lei

doi:10.1002/adfm.202108135

Cited by 101 publications

(61 citation statements)

References 46 publications

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“…Ethanol exhibited the longest transmission distance and the fastest transmission rate, reaching a height of 40 mm at 50 s (Figure S8b), which was superior to other reports (Table S3). ,,− The rate at this time was still 0.8 mm/s, which exceeded that of the water. Such a phenomenon might be because although the ethanol had lower surface tension than water, the lower density made it easier to transport from bottom to top inside the aerogel than water.…”

Section: Resultsmentioning

confidence: 84%

Liquid Transport and Real-Time Dye Purification via Lotus Petiole-Inspired Long-Range-Ordered Anisotropic Cellulose Nanofibril Aerogels

Chen

et al. 2021

ACS Nano

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Nowadays, large-scale oriented functional porous materials have been sought after by researchers. However, regulation of the long-range uniform and oriented structures of the material remains a challenge. Herein, ultralong anisotropic cellulose nanofibril (CNF) aerogels with uniformly ordered structures of pore walls inspired by lotus petioles were constructed by applying external speeds to counterbalance the growth driving forces of ice crystals. Based on the growth law of ice crystals, the ice crystals grew at a stable rate when the applied external speed was 0.04 mm/s, ensuring the consistent orientation of the large-scale CNF aerogel. The aerogel exhibited a rapid long-range directional transport ability to different liquid solvents, delivering ethanol up to 40 mm from bottom to top within 50 s. Moreover, by introducing rectorites with good cation-exchange properties, the resulting long-range composite possessed an enhanced adsorption capacity for methylene blue. Furthermore, aerogel successfully achieved realtime dye purification at a long distance, such as fast dye adsorption or selective adsorption. This flexible and straightforward strategy of fabricating ultralong oriented CNF aerogel materials is expected to promote the development of functional aerogels in directional liquid transport and sewage treatment.

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Section: Resultsmentioning

confidence: 84%

Liquid Transport and Real-Time Dye Purification via Lotus Petiole-Inspired Long-Range-Ordered Anisotropic Cellulose Nanofibril Aerogels

Chen

et al. 2021

ACS Nano

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“…However, as the thickness increased further to 3.0 cm, the evaporation rate slightly decreased to 2.873 kg m −2 h −1 . The decreased evaporation rate might be caused by the decrease of water transfer efficiency due to the overlong water path from the water surface to the surface of the SMoS 2 ‐PH [36] . In addition, we tested the optical absorption properties of SMoS 2 ‐PH with different thicknesses over the full spectral range.…”

Section: Resultsmentioning

confidence: 99%

Enhanced Solar Evaporation Using a Scalable MoS₂‐Based Hydrogel for Highly Efficient Solar Desalination

Liu

et al. 2022

Angewandte Chemie

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Interfacial photo-vapor conversion has been suggested as a cost-effective and sustainable technology for seawater desalination. However, the conversion performance was still limited by some drawbacks, like salt accumulation and poor mechanical stability. Herein, a scalable MoS 2 -based porous hydrogel (SMoS 2 -PH) with good mechanical stability and salt resistance was successfully constructed through a crosslinking foaming polymerization method. With the high porosity (92.63 %), the SMoS 2 -PH performed an impressive evaporation rate of 3.297 kg m À 2 h À 1 and photothermal conversion efficiency of 93.4 % under 1-sun illumination. Most importantly, the SMoS 2 -PH could maintain high and stable photothermal properties for 15 days on the surface of seawater. We believe that the excellent salt resistance, the high photothermal conversion efficiency, the ease of scale preparation method and the available commercial MoS 2 make the SMoS 2 -PH a promising device for full-scale seawater desalination.

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“…The diameter of lumina was around 119 μm and cell wall thickness was around 0.87 μm. Such unique porous structure with huge lumina has been reported to endow the stalk pith with highly efficient water transportation when used as solar evaporators [ 17 ]. Presence of cavities in cell corners were observed in pith (arrow in Figure 3 b), and similar phenomenon were also observed in bamboo [ 19 ].…”

Section: Resultsmentioning

confidence: 99%

“…In general, the pith is considered a waste and removed before stalk utilization [ 12 ]. Very recently, stalk pith has been receiving increasing attentions in solar evaporators [ 16 , 17 ], and feedstock for the coproduction of pectin and glucose [ 18 ]. Currently, unlike stalk rind, whose anatomy and cell wall ultrastructure has been investigated thoroughly [ 11 ], information regarding stalk pith and its effects on bioconversion and utilization has not been reported.…”

Section: Introductionmentioning

confidence: 99%

A Comparative Investigation on Structural and Chemical Differences between the Pith and Rind of Sunflower Stalk and Their Influences on Nanofibrillation Efficiency

et al. 2022

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The structure and chemical composition of cell walls play a vital role in the bioconversion and utilization of plants. In the present study, the cell wall structure and chemical composition of pith and rind from sunflower stalks were compared and correlated to their nanofibrillation efficiency with ultrasonic treatment. Mild chemical pretreatment using 1% or 4% NaOH without any bleaching process were applied prior to ultrasonication nanofibrillation. Significant structural and chemical differences were demonstrated between the pith and rind, with the former exhibiting a much lower lignin and hemicellulose contents, higher pectin, much looser cell structure and higher cell wall porosity than the latter. Alkaline treatment alone was sufficient to eliminate most of the hemicellulose and pectin from stalk pith, whereas only partial removal of hemicellulose and lignin was achieved for the woody rind part. After 30 min of ultrasonic treatment, the stalk pith exhibited fully defibrillated fibrils with a continuous and entangled micro/nanofibrillated network, whereas numerous micron-sized fiber and fragments remained for the rind. The results indicated that stalk pith is less recalcitrant and easier to be fibrillated with ultrasonication than rind, which must be correlated to their distinct differences in both structure and chemical composition.

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Nature Sunflower Stalk Pith with Zwitterionic Hydrogel Coating for Highly Efficient and Sustainable Solar Evaporation

Cited by 101 publications

References 46 publications

Liquid Transport and Real-Time Dye Purification via Lotus Petiole-Inspired Long-Range-Ordered Anisotropic Cellulose Nanofibril Aerogels

Liquid Transport and Real-Time Dye Purification via Lotus Petiole-Inspired Long-Range-Ordered Anisotropic Cellulose Nanofibril Aerogels

Enhanced Solar Evaporation Using a Scalable MoS₂‐Based Hydrogel for Highly Efficient Solar Desalination

A Comparative Investigation on Structural and Chemical Differences between the Pith and Rind of Sunflower Stalk and Their Influences on Nanofibrillation Efficiency

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Nature Sunflower Stalk Pith with Zwitterionic Hydrogel Coating for Highly Efficient and Sustainable Solar Evaporation

Cited by 101 publications

References 46 publications

Liquid Transport and Real-Time Dye Purification via Lotus Petiole-Inspired Long-Range-Ordered Anisotropic Cellulose Nanofibril Aerogels

Liquid Transport and Real-Time Dye Purification via Lotus Petiole-Inspired Long-Range-Ordered Anisotropic Cellulose Nanofibril Aerogels

Enhanced Solar Evaporation Using a Scalable MoS2‐Based Hydrogel for Highly Efficient Solar Desalination

A Comparative Investigation on Structural and Chemical Differences between the Pith and Rind of Sunflower Stalk and Their Influences on Nanofibrillation Efficiency

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Enhanced Solar Evaporation Using a Scalable MoS₂‐Based Hydrogel for Highly Efficient Solar Desalination