The Experts below are selected from a list of 7992 Experts worldwide ranked by ideXlab platform
Guozhong Xing - One of the best experts on this subject based on the ideXlab platform.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Ziyang Lu, Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Peng Du, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Xinlin Liu, Pengwei Huo, Feng Yan, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
Guosheng Zhou - One of the best experts on this subject based on the ideXlab platform.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Ziyang Lu, Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Peng Du, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Xinlin Liu, Pengwei Huo, Feng Yan, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
Hua Tang - One of the best experts on this subject based on the ideXlab platform.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Ziyang Lu, Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Peng Du, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Xinlin Liu, Pengwei Huo, Feng Yan, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
Hongjun Dong - One of the best experts on this subject based on the ideXlab platform.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Ziyang Lu, Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Peng Du, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Xinlin Liu, Pengwei Huo, Feng Yan, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
Minshan Song - One of the best experts on this subject based on the ideXlab platform.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Ziyang Lu, Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Peng Du, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
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development of magnetic imprinted pedot cds heterojunction photocatalytic Nanoreactors 3 dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate
Applied Catalysis B-environmental, 2020Co-Authors: Guosheng Zhou, Minshan Song, Hua Tang, Hongjun Dong, Xinlin Liu, Pengwei Huo, Feng Yan, Guozhong XingAbstract:Abstract Magnetic imprinted PEDOT/CdS heterojunction photocatalytic Nanoreactors are synergistically synthesized by the microwave-assisted surface imprinting technique. The coating of the PEDOT imprinted layer is conducive to the three-dimensional (3D) specific recognition and selective photocatalysis of danofloxacin mesylate due to the formation of imprinted cavities. The representative specific degradation selectivity coefficient of the developed nanoreactor relative to CdS/Fe3O4/HNT and magnetic non-imprinted PEDOT/CdS heterojunction is 2.08 and 2.11, respectively, clearly elaborating the excellent selectivity. The introduction of Fe3O4 into PEDOT/CdS heterojunction enhances the transfer of photoexcited electrons, thereby, the photocatalytic activity has been significantly boosted up to ∼84.84 %. Meanwhile, the existence of PEDOT imprinted layer not only extracts the photoinduced holes produced by CdS, but also encapsulates CdS, which effectively inhibits the CdS photocorrosion and hinders its secondary pollution. With the improved selectivity and photocatalytic activity, our work paves the way to efficiently remove the target pollutant aiming at the practical application requirements.
