In situ decoration of Cd0.05Mn0.05Zn0.90 (ZIF-8) photocatalyst for solar-driven hydrogen production
In this study, we decorate the Cd0.05Mn0.05Zn0.90-ZIF-8 photocatalyst by partial exchange of Mn2+ and Cd2? with Zn2? metal ions within imidazole frameworks through facile in situ synthesis process at room temperature, which markedly enhances photocatalytic hydrogen generation (PHG). The morphologica...
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my.uniten.dspace-369122025-03-03T15:45:43Z In situ decoration of Cd0.05Mn0.05Zn0.90 (ZIF-8) photocatalyst for solar-driven hydrogen production Kshirsagar S.D. Shelake S.P. Islam H. Bhattacharyya S. Ahmadipour M. Sesha Sainath A.V. Pal U. 59314186000 58479825900 59349999700 35578283700 55533484700 12803038800 8908351700 Cadmium alloys Manganese alloys Photocatalytic activity Cdmnzn-ZIF-8 photocatalyst High surface area Hydrogen generations Imidazol In-situ synthesis Metals ions Morphological features Photocatalytic hydrogen Solar driven Synthesis process Zinc alloys In this study, we decorate the Cd0.05Mn0.05Zn0.90-ZIF-8 photocatalyst by partial exchange of Mn2+ and Cd2? with Zn2? metal ions within imidazole frameworks through facile in situ synthesis process at room temperature, which markedly enhances photocatalytic hydrogen generation (PHG). The morphological features exhibited a well-defined truncated rhombic dodecahedron shape. The CMZ8-2 exhibited a superior hydrogen production rate of 3.30 mmolg?1h?1 with an AQY of 8.16%, which is 6 times higher than that of pristine Z8 under simulated full arc solar spectrum at pH 11. Furthermore, the physicochemical insights were established by UV?vis, XRD, HRTEM and binding information by XPS and FTIR studies. Notably, high surface areas (1965.68?1791.61 m2g-1), an impressive average photoexcited charge lifetime of 1.47?1.60 ns, and high transient photocurrent further augmented the PHG performances. The stability of the CMZ8-2 was investigated through photocatalytic cyclic stability test, demonstrating a regeneration efficiency of 93.84% in the fourth cycle. ? 2024 Hydrogen Energy Publications LLC Article in press 2025-03-03T07:45:43Z 2025-03-03T07:45:43Z 2024 Article 10.1016/j.ijhydene.2024.08.516 2-s2.0-85205370388 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85205370388&doi=10.1016%2fj.ijhydene.2024.08.516&partnerID=40&md5=b56e4f09927fa52f614055a6f20e14df https://irepository.uniten.edu.my/handle/123456789/36912 Elsevier Ltd Scopus |
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Cadmium alloys Manganese alloys Photocatalytic activity Cdmnzn-ZIF-8 photocatalyst High surface area Hydrogen generations Imidazol In-situ synthesis Metals ions Morphological features Photocatalytic hydrogen Solar driven Synthesis process Zinc alloys |
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Cadmium alloys Manganese alloys Photocatalytic activity Cdmnzn-ZIF-8 photocatalyst High surface area Hydrogen generations Imidazol In-situ synthesis Metals ions Morphological features Photocatalytic hydrogen Solar driven Synthesis process Zinc alloys Kshirsagar S.D. Shelake S.P. Islam H. Bhattacharyya S. Ahmadipour M. Sesha Sainath A.V. Pal U. In situ decoration of Cd0.05Mn0.05Zn0.90 (ZIF-8) photocatalyst for solar-driven hydrogen production |
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In this study, we decorate the Cd0.05Mn0.05Zn0.90-ZIF-8 photocatalyst by partial exchange of Mn2+ and Cd2? with Zn2? metal ions within imidazole frameworks through facile in situ synthesis process at room temperature, which markedly enhances photocatalytic hydrogen generation (PHG). The morphological features exhibited a well-defined truncated rhombic dodecahedron shape. The CMZ8-2 exhibited a superior hydrogen production rate of 3.30 mmolg?1h?1 with an AQY of 8.16%, which is 6 times higher than that of pristine Z8 under simulated full arc solar spectrum at pH 11. Furthermore, the physicochemical insights were established by UV?vis, XRD, HRTEM and binding information by XPS and FTIR studies. Notably, high surface areas (1965.68?1791.61 m2g-1), an impressive average photoexcited charge lifetime of 1.47?1.60 ns, and high transient photocurrent further augmented the PHG performances. The stability of the CMZ8-2 was investigated through photocatalytic cyclic stability test, demonstrating a regeneration efficiency of 93.84% in the fourth cycle. ? 2024 Hydrogen Energy Publications LLC |
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59314186000 |
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59314186000 Kshirsagar S.D. Shelake S.P. Islam H. Bhattacharyya S. Ahmadipour M. Sesha Sainath A.V. Pal U. |
| format |
Article |
| author |
Kshirsagar S.D. Shelake S.P. Islam H. Bhattacharyya S. Ahmadipour M. Sesha Sainath A.V. Pal U. |
| author_sort |
Kshirsagar S.D. |
| title |
In situ decoration of Cd0.05Mn0.05Zn0.90 (ZIF-8) photocatalyst for solar-driven hydrogen production |
| title_short |
In situ decoration of Cd0.05Mn0.05Zn0.90 (ZIF-8) photocatalyst for solar-driven hydrogen production |
| title_full |
In situ decoration of Cd0.05Mn0.05Zn0.90 (ZIF-8) photocatalyst for solar-driven hydrogen production |
| title_fullStr |
In situ decoration of Cd0.05Mn0.05Zn0.90 (ZIF-8) photocatalyst for solar-driven hydrogen production |
| title_full_unstemmed |
In situ decoration of Cd0.05Mn0.05Zn0.90 (ZIF-8) photocatalyst for solar-driven hydrogen production |
| title_sort |
in situ decoration of cd0.05mn0.05zn0.90 (zif-8) photocatalyst for solar-driven hydrogen production |
| publisher |
Elsevier Ltd |
| publishDate |
2025 |
| _version_ |
1825816288426983424 |
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13.244109 |