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KCIMulticomponent nanomaterials with synergistic effect were typically used to enhance the photocatalytic performance. Herein, three‐component nanomaterials composed of Cu 2 O, Cu, and TiO 2 ...
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RISS 인기검색어
Photocatalytic degradation of 4‐nitrophenol by using multicomponent Cu 2 O‐Cu@TiO 2 nanoparticl
한글로보기https://www.riss.kr/link?id=A109037482
-
저자
Jiang Jianwei (Department of Chemistry Chung‐Ang University Seoul Korea) ; 문석영 (Department of Chemistry Chung‐Ang University Seoul Korea) ; 윤성호 (Department of Chemistry Chung‐Ang University Seoul Korea) ; Piao Longhai (Department of Chemistry Kongju National University Chungnam Korea)
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2024
-
작성언어
English
- 주제어
-
등재정보
KCI등재,SCOPUS,SCIE
-
자료형태
학술저널
-
수록면
373-377(5쪽)
- DOI식별코드
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Multicomponent nanomaterials with synergistic effect were typically used to enhance the photocatalytic performance. Herein, three‐component nanomaterials composed of Cu
2
O, Cu, and TiO
2
were prepared using a facile method, and applied in the photocatalytic degradation reactions. The synthetic procedure involves the formation of Cu
2
O nanoparticle aggregates (NPAs) followed by Cu nanoparticles growth on the surface of Cu
2
O NPAs in one pot, and TiO
2
encapsulation (Cu
2
O‐Cu@TiO
2
). The catalyst structure was characterized by x‐ray diffraction, field emission‐scanning electron microscopy, transmission electron microscopy, and energy‐dispersed x‐ray. The catalytic performance of Cu
2
O‐Cu@TiO
2
NPAs was evaluated through the photocatalytic degradation of 4‐nitrophenol under the simulated solar light. We found that it exhibited greater activity than the Cu
2
O‐Cu NPAs, commercial TiO
2
, and Cu
2
O@TiO
2
NPAs, probably due to their synergistic interactions resulting in the effective photogenerated carrier transfer in the multicomponent nanomaterials.
2
O, Cu, and TiO
2
were prepared using a facile method, and applied in the photocatalytic degradation reactions. The synthetic procedure involves the formation of Cu
2
O nanoparticle aggregates (NPAs) followed by Cu nanoparticles growth on the surface of Cu
2
O NPAs in one pot, and TiO
2
encapsulation (Cu
2
O‐Cu@TiO
2
). The catalyst structure was characterized by x‐ray diffraction, field emission‐scanning electron microscopy, transmission electron microscopy, and energy‐dispersed x‐ray. The catalytic performance of Cu
2
O‐Cu@TiO
2
NPAs was evaluated through the photocatalytic degradation of 4‐nitrophenol under the simulated solar light. We found that it exhibited greater activity than the Cu
2
O‐Cu NPAs, commercial TiO
2
, and Cu
2
O@TiO
2
NPAs, probably due to their synergistic interactions resulting in the effective photogenerated carrier transfer in the multicomponent nanomaterials.
Multicomponent nanomaterials with synergistic effect were typically used to enhance the photocatalytic performance. Herein, three‐component nanomaterials composed of Cu
2
O, Cu, and TiO
2
were prepared using a facile method, and applied in the photocatalytic degradation reactions. The synthetic procedure involves the formation of Cu
2
O nanoparticle aggregates (NPAs) followed by Cu nanoparticles growth on the surface of Cu
2
O NPAs in one pot, and TiO
2
encapsulation (Cu
2
O‐Cu@TiO
2
). The catalyst structure was characterized by x‐ray diffraction, field emission‐scanning electron microscopy, transmission electron microscopy, and energy‐dispersed x‐ray. The catalytic performance of Cu
2
O‐Cu@TiO
2
NPAs was evaluated through the photocatalytic degradation of 4‐nitrophenol under the simulated solar light. We found that it exhibited greater activity than the Cu
2
O‐Cu NPAs, commercial TiO
2
, and Cu
2
O@TiO
2
NPAs, probably due to their synergistic interactions resulting in the effective photogenerated carrier transfer in the multicomponent nanomaterials.
다국어 초록 (Multilingual Abstract)
Multicomponent nanomaterials with synergistic effect were typically used to enhance the photocatalytic performance. Herein, three-component nanomaterials composed of Cu2O, Cu, and TiO2 were prepared using a facile method, and applied in the photocatalytic degradation reactions. The synthetic procedure involves the formation of Cu2O nanoparticle aggregates (NPAs) followed by Cu nanoparticles growth on the surface of Cu2O NPAs in one pot, and TiO2 encapsulation (Cu2O-Cu@TiO2). The catalyst structure was characterized by x-ray diffraction, field emission-scanning electron microscopy, transmission electron microscopy, and energy-dispersed x-ray. The catalytic performance of Cu2OCu@ TiO2 NPAs was evaluated through the photocatalytic degradation of 4-nitrophenol under the simulated solar light. We found that it exhibited greater activity than the Cu2O-Cu NPAs, commercial TiO2, and Cu2O@TiO2 NPAs, probably due to their synergistic interactions resulting in the effective photogenerated carrier transfer in the multicomponent nanomaterials.
Multicomponent nanomaterials with synergistic effect were typically used to enhance the photocatalytic performance. Herein, three-component nanomaterials composed of Cu2O, Cu, and TiO2 were prepared using a facile method, and applied in the photocatal...
Multicomponent nanomaterials with synergistic effect were typically used to enhance the photocatalytic performance. Herein, three-component nanomaterials composed of Cu2O, Cu, and TiO2 were prepared using a facile method, and applied in the photocatalytic degradation reactions. The synthetic procedure involves the formation of Cu2O nanoparticle aggregates (NPAs) followed by Cu nanoparticles growth on the surface of Cu2O NPAs in one pot, and TiO2 encapsulation (Cu2O-Cu@TiO2). The catalyst structure was characterized by x-ray diffraction, field emission-scanning electron microscopy, transmission electron microscopy, and energy-dispersed x-ray. The catalytic performance of Cu2OCu@ TiO2 NPAs was evaluated through the photocatalytic degradation of 4-nitrophenol under the simulated solar light. We found that it exhibited greater activity than the Cu2O-Cu NPAs, commercial TiO2, and Cu2O@TiO2 NPAs, probably due to their synergistic interactions resulting in the effective photogenerated carrier transfer in the multicomponent nanomaterials.
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