Wool keratin has broad application prospects in biomedical materials, tissue engineering, and other fields. To obtain porous wool keratin membrane with good performance, and lay the foundation for its application in b...Wool keratin has broad application prospects in biomedical materials, tissue engineering, and other fields. To obtain porous wool keratin membrane with good performance, and lay the foundation for its application in biological fields in the future, wool keratin aqueous solution and sponge were prepared and their characters were discussed. Wool fiber was dissolved with a mixture of urea, β-mercapitoethanol, sodium dodecyl sulfate(SDS) and water, and stable keratin aqueous solution was prepared through filtration and dialysis. Dissolution rate under different conditions was discussed. The results show that dissolution rate increases with the increase of dissolving temperature, reduction β-mercaptoethanol and assistant agent urea concentration and the addition of SDS. SDS polyacrylamide gel electrophoresis (SDS PAGE) shows the major molecular weight of the aqueous keratin solution is between 44300 u and 66400 u. Amino acid analysis shows the cysteine acid content of the keratin solution decreases obviously. Wool keratin sponge was made from the keratin solution with freeze drying method and its structure and characters were studied with scanning electron microscopy(SEM) and Fourier transform infrared spectrometer (FTIR). The results indicate that keratin sponge has evident pores structure, and the conformation of the sponge is β-sheet.展开更多
Global freshwater scarcity and energy shortages demand integrated solutions.To overcome limitations of traditional solar evaporators,such as salt accumulation,thermal dissipation,and material scalability issues,this s...Global freshwater scarcity and energy shortages demand integrated solutions.To overcome limitations of traditional solar evaporators,such as salt accumulation,thermal dissipation,and material scalability issues,this study presents a biomass-derived three-dimensional(3D)aerogel-based dual-function solar evaporator that simultaneously achieves ultra-high freshwater production and continuous electricity generation.By ingeniously integrating a superhydrophobic inner layer for thermal insulation and buoyancy with a hydrophilic photothermal outer layer for rapid water transport and solar absorption,our design overcomes the trade-offs between evaporation efficiency,salt resistance,and energy loss.The evaporator exhibits exceptional dual performance:an evaporation rate of 3.87 kg m^(-2)h-1(1 sun)and a sustained open-circuit voltage of 222.6 mV,surpassing most reported systems.This synergy originates from ion gradient-driven streaming potentials enabled by selective Na^(+) transport through–COOH/C–OH functionalized microchannels,as verified by molecular dynamics simulations.Crucially,the fabrication process utilizes low-cost biomass materials and scalable techniques,demonstrating significant potential for commercialization.This work not only provides a mechanistic understanding of ion-selective transport in dual-function evaporators but also establishes a paradigm for sustainable co-production of clean water and renewable energy,addressing two pressing global challenges through a single and scalable platform.展开更多
In this paper, we discussed the relationship of filter effictency and pressure drop with the porosity, fiber diameter and filter thickness by Oeodict. We found that filter efficiency will increase when filter porosity...In this paper, we discussed the relationship of filter effictency and pressure drop with the porosity, fiber diameter and filter thickness by Oeodict. We found that filter efficiency will increase when filter porosity and fiber diameter decreasing or filter thickness increasing. And the pressure drop has a linear relationship with filter thickness and non-linear relationship with filter porosity and fiber diameter. We also compared the simulation results with the real test results by TSI 3160. Although there are some differences, I think Ocodict can be used to predict filter effictency and pressure drop.展开更多
基金Natural Science Foundation of Hubei Province,China ( No. 2008CDA059)
文摘Wool keratin has broad application prospects in biomedical materials, tissue engineering, and other fields. To obtain porous wool keratin membrane with good performance, and lay the foundation for its application in biological fields in the future, wool keratin aqueous solution and sponge were prepared and their characters were discussed. Wool fiber was dissolved with a mixture of urea, β-mercapitoethanol, sodium dodecyl sulfate(SDS) and water, and stable keratin aqueous solution was prepared through filtration and dialysis. Dissolution rate under different conditions was discussed. The results show that dissolution rate increases with the increase of dissolving temperature, reduction β-mercaptoethanol and assistant agent urea concentration and the addition of SDS. SDS polyacrylamide gel electrophoresis (SDS PAGE) shows the major molecular weight of the aqueous keratin solution is between 44300 u and 66400 u. Amino acid analysis shows the cysteine acid content of the keratin solution decreases obviously. Wool keratin sponge was made from the keratin solution with freeze drying method and its structure and characters were studied with scanning electron microscopy(SEM) and Fourier transform infrared spectrometer (FTIR). The results indicate that keratin sponge has evident pores structure, and the conformation of the sponge is β-sheet.
文摘Global freshwater scarcity and energy shortages demand integrated solutions.To overcome limitations of traditional solar evaporators,such as salt accumulation,thermal dissipation,and material scalability issues,this study presents a biomass-derived three-dimensional(3D)aerogel-based dual-function solar evaporator that simultaneously achieves ultra-high freshwater production and continuous electricity generation.By ingeniously integrating a superhydrophobic inner layer for thermal insulation and buoyancy with a hydrophilic photothermal outer layer for rapid water transport and solar absorption,our design overcomes the trade-offs between evaporation efficiency,salt resistance,and energy loss.The evaporator exhibits exceptional dual performance:an evaporation rate of 3.87 kg m^(-2)h-1(1 sun)and a sustained open-circuit voltage of 222.6 mV,surpassing most reported systems.This synergy originates from ion gradient-driven streaming potentials enabled by selective Na^(+) transport through–COOH/C–OH functionalized microchannels,as verified by molecular dynamics simulations.Crucially,the fabrication process utilizes low-cost biomass materials and scalable techniques,demonstrating significant potential for commercialization.This work not only provides a mechanistic understanding of ion-selective transport in dual-function evaporators but also establishes a paradigm for sustainable co-production of clean water and renewable energy,addressing two pressing global challenges through a single and scalable platform.
基金Supported by SRC/ERC Programof MOST/KOSEF (R11 -2005 -065) ,Soongsil University
文摘In this paper, we discussed the relationship of filter effictency and pressure drop with the porosity, fiber diameter and filter thickness by Oeodict. We found that filter efficiency will increase when filter porosity and fiber diameter decreasing or filter thickness increasing. And the pressure drop has a linear relationship with filter thickness and non-linear relationship with filter porosity and fiber diameter. We also compared the simulation results with the real test results by TSI 3160. Although there are some differences, I think Ocodict can be used to predict filter effictency and pressure drop.
