The Experts below are selected from a list of 6111 Experts worldwide ranked by ideXlab platform
Tao Chen - One of the best experts on this subject based on the ideXlab platform.
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Biodegradable PLA Nonwoven Fabric with Controllable Wettability for Efficient Water Purification and Photocatalysis Degradation
ACS Sustainable Chemistry & Engineering, 2018Co-Authors: Lei Zhang, Peng Xiao, Youju Huang, Peng Chen, Xuefen Wang, Jincui Gu, Jiawei Zhang, Tao ChenAbstract:Although many bioinspired superwetting materials with excellent capability for oil/water separation have been constructed, functional surfaces combining effective separation property, biodegradability, and easy-controllability are still highly desired. In this work, a facile strategy to realize the controllable wettability on the polylactic acid (PLA) Nonwoven Fabric has been developed; the resulting superwetting PLA Nonwoven Fabrics exhibit high absorption capacity and high selectivity in oil/water separation. Moreover, the superhydrophilic PLA Nonwoven Fabric possesses excellent simultaneous photocatalysis degradation of water-miscible toxic organic pollutants. With the versatility and biodegradability, these advanced PLA Nonwoven Fabrics may provide effective solutions to oily water treatment.
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functionalization of biodegradable pla Nonwoven Fabric as superoleophilic and superhydrophobic material for efficient oil absorption and oil water separation
ACS Applied Materials & Interfaces, 2017Co-Authors: Jincui Gu, Lei Zhang, Peng Xiao, Youju Huang, Peng Chen, Jiawei Zhang, Hanlin Wang, Liping Song, Tao ChenAbstract:Although the construction of superwettability materials for oil/water separation has been developed rapidly, the postprocess of the used separation materials themselves is still a thorny problem due to their nondegradation in the natural environment. In this work, we reported the functionalization of polylactic acid (PLA) Nonwoven Fabric as superoleophilic and superhydrophobic material for efficient treatment of oily wastewater with eco-friendly post-treatment due to the well-known biodegradable nature of PLA matrix.
Qingqing Ni - One of the best experts on this subject based on the ideXlab platform.
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smart Nonwoven Fabric with reversibly dual stimuli responsive wettability for intelligent oil water separation and pollutants removal
Journal of Hazardous Materials, 2020Co-Authors: Duanchao Wang, Xiaogang Yang, Houyong Yu, Jiping Gu, Dongming Qi, Qingqing NiAbstract:Abstract This work presents the first Fabrication of smart Nonwoven Fabric (DSR-CZPP) with extraordinary reversible double-stimulus responsive wettability, where carboxyl groups of cellulose nanocrystals/zinc oxide (CNC/ZnO) nanohybrids deposited on Fabric surface can bond with hydroxyl group of the PDMAEMA-b-PHEMA-b-PMAAAB triblock polymer brushes that was prepared by using methyl methacrylate (HEMA), dimethylaminoethyl methacrylate (DMAEMA) and methacrylamide-azobenzene monomer (MAAAB) via reversible addition–fragmentation chain transfer (RAFT). The peculiar reversible double-stimulus responsive wettability of the DSR-CZPP can be modulated by triggering hydrophilic/hydrophobic transitions and lipophilic/oleophobic transitions under dual-stimulations of pH and UV light irradiation. The special molecular structure of the triblock polymer brushes enabled DSR-CZPP to intelligent modulation of oil-water separation under the control of "UV & pH double switch", meanwhile CNC/ZnO simultaneously can induce the photocatalytic degradation of organic dyes. Moreover, DSR-CZPP can have high removal ratios of various pollutants, such as metal ion (Cu2+) and toxic organic solvent (silicone oil, acetone and chloroform). This smart and multifunctional Fabric shows great potentials for treating complicated polluted water from most industrial fields.
Jincui Gu - One of the best experts on this subject based on the ideXlab platform.
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Biodegradable PLA Nonwoven Fabric with Controllable Wettability for Efficient Water Purification and Photocatalysis Degradation
ACS Sustainable Chemistry & Engineering, 2018Co-Authors: Lei Zhang, Peng Xiao, Youju Huang, Peng Chen, Xuefen Wang, Jincui Gu, Jiawei Zhang, Tao ChenAbstract:Although many bioinspired superwetting materials with excellent capability for oil/water separation have been constructed, functional surfaces combining effective separation property, biodegradability, and easy-controllability are still highly desired. In this work, a facile strategy to realize the controllable wettability on the polylactic acid (PLA) Nonwoven Fabric has been developed; the resulting superwetting PLA Nonwoven Fabrics exhibit high absorption capacity and high selectivity in oil/water separation. Moreover, the superhydrophilic PLA Nonwoven Fabric possesses excellent simultaneous photocatalysis degradation of water-miscible toxic organic pollutants. With the versatility and biodegradability, these advanced PLA Nonwoven Fabrics may provide effective solutions to oily water treatment.
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functionalization of biodegradable pla Nonwoven Fabric as superoleophilic and superhydrophobic material for efficient oil absorption and oil water separation
ACS Applied Materials & Interfaces, 2017Co-Authors: Jincui Gu, Lei Zhang, Peng Xiao, Youju Huang, Peng Chen, Jiawei Zhang, Hanlin Wang, Liping Song, Tao ChenAbstract:Although the construction of superwettability materials for oil/water separation has been developed rapidly, the postprocess of the used separation materials themselves is still a thorny problem due to their nondegradation in the natural environment. In this work, we reported the functionalization of polylactic acid (PLA) Nonwoven Fabric as superoleophilic and superhydrophobic material for efficient treatment of oily wastewater with eco-friendly post-treatment due to the well-known biodegradable nature of PLA matrix.
Izabella Krucinska - One of the best experts on this subject based on the ideXlab platform.
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Research on a Nonwoven Fabric Made from Multi-Block Biodegradable Copolymer Based on L-Lactide, Glycolide, and Trimethylene Carbonate with Shape Memory
Molecules, 2017Co-Authors: Joanna Walczak, Michał Chrzanowski, Izabella KrucinskaAbstract:The presented paper concerns scientific research on processing a poly(lactide-co-glycolide-co-trimethylene carbonate) copolymer (PLLAGLTMC) with thermally induced shape memory and a transition temperature around human body temperature. The material in the literature called terpolymer was used to produce smart, Nonwoven Fabric with the melt blowing technique. Bioresorbable and biocompatible terpolymers with shape memory have been investigated for its medical applications, such as cardiovascular stents. There are several research studies on shape memory in polymers, but this phenomenon has not been widely studied in textile products made from shape memory polymers (SMPs). The current research aims to explore the characteristics of the PLLAGLTMC Nonwoven Fabric in detail and the mechanism of its shape memory behavior. In this study, the Nonwoven Fabric was subjected to thermo-mechanical, morphological, and shape memory analysis. The thermo-mechanical and structural properties were investigated by means of differential scanning calorimetry, dynamic mechanical analysis, scanning electron microscopic examination, and mercury porosimetry measurements. Eventually, the gathered results confirmed that the Nonwoven Fabric possessed characteristics that classified it as a smart material with potential applications in medicine.
Lei Zhang - One of the best experts on this subject based on the ideXlab platform.
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Biodegradable PLA Nonwoven Fabric with Controllable Wettability for Efficient Water Purification and Photocatalysis Degradation
ACS Sustainable Chemistry & Engineering, 2018Co-Authors: Lei Zhang, Peng Xiao, Youju Huang, Peng Chen, Xuefen Wang, Jincui Gu, Jiawei Zhang, Tao ChenAbstract:Although many bioinspired superwetting materials with excellent capability for oil/water separation have been constructed, functional surfaces combining effective separation property, biodegradability, and easy-controllability are still highly desired. In this work, a facile strategy to realize the controllable wettability on the polylactic acid (PLA) Nonwoven Fabric has been developed; the resulting superwetting PLA Nonwoven Fabrics exhibit high absorption capacity and high selectivity in oil/water separation. Moreover, the superhydrophilic PLA Nonwoven Fabric possesses excellent simultaneous photocatalysis degradation of water-miscible toxic organic pollutants. With the versatility and biodegradability, these advanced PLA Nonwoven Fabrics may provide effective solutions to oily water treatment.
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functionalization of biodegradable pla Nonwoven Fabric as superoleophilic and superhydrophobic material for efficient oil absorption and oil water separation
ACS Applied Materials & Interfaces, 2017Co-Authors: Jincui Gu, Lei Zhang, Peng Xiao, Youju Huang, Peng Chen, Jiawei Zhang, Hanlin Wang, Liping Song, Tao ChenAbstract:Although the construction of superwettability materials for oil/water separation has been developed rapidly, the postprocess of the used separation materials themselves is still a thorny problem due to their nondegradation in the natural environment. In this work, we reported the functionalization of polylactic acid (PLA) Nonwoven Fabric as superoleophilic and superhydrophobic material for efficient treatment of oily wastewater with eco-friendly post-treatment due to the well-known biodegradable nature of PLA matrix.
