In-situ synthesis of hydroxyapatite-supported Ag3PO4 using cockle (Anadara granosa) shell as photocatalyst in rhodamine B photodegradation and antibacterial agent
A nanocomposite of hydroxyapatite-supported Ag3PO4 (Ag3PO4/HA) was prepared by in-situ co-precipitation followed by hydrothermal method by utilizing cockle (Anadara granosa) shell as biogenic calcium source. The obtained nanocomposite was characterized by different instrumental analyses. X-ray diffr...
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Elsevier
2024-12-01
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| Series: | Case Studies in Chemical and Environmental Engineering |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2666016424001919 |
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| author | Is Fatimah Rahmania Audita Gani Purwiandono Habibi Hidayat Suresh Sagadevan Won-Chun Oh Ruey-an Doong |
| author_facet | Is Fatimah Rahmania Audita Gani Purwiandono Habibi Hidayat Suresh Sagadevan Won-Chun Oh Ruey-an Doong |
| author_sort | Is Fatimah |
| collection | DOAJ |
| description | A nanocomposite of hydroxyapatite-supported Ag3PO4 (Ag3PO4/HA) was prepared by in-situ co-precipitation followed by hydrothermal method by utilizing cockle (Anadara granosa) shell as biogenic calcium source. The obtained nanocomposite was characterized by different instrumental analyses. X-ray diffraction spectroscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy analyses confirmed the formation of dispersed Ag3PO4 on HA structure with the particles size ranging at 10–40 nm. The material has band gap energy of 2.3 eV which support the activity as photocatalyst for rhodamine B degradation. The removal efficiency of 99.87% was expressed by the nanocomposite for 120 min of treatment, and reusability was demonstrated by insignificant change of the removal and kinetics constant for 5 cycles. The nanocomposite showed antibacterial activity against E. Coli, S. aureus, K. Pneumonia, and S. pyogenes. |
| format | Article |
| id | doaj-art-ba0893bf479645848e77ae2eb4052a79 |
| institution | OA Journals |
| issn | 2666-0164 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Case Studies in Chemical and Environmental Engineering |
| spelling | doaj-art-ba0893bf479645848e77ae2eb4052a792025-08-20T02:38:58ZengElsevierCase Studies in Chemical and Environmental Engineering2666-01642024-12-011010079710.1016/j.cscee.2024.100797In-situ synthesis of hydroxyapatite-supported Ag3PO4 using cockle (Anadara granosa) shell as photocatalyst in rhodamine B photodegradation and antibacterial agentIs Fatimah0Rahmania Audita1Gani Purwiandono2Habibi Hidayat3Suresh Sagadevan4Won-Chun Oh5Ruey-an Doong6Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Islam Indonesia, Jl. Kaliurang Km 14, Sleman, Yogyakarta, Indonesia; Corresponding author.Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Islam Indonesia, Jl. Kaliurang Km 14, Sleman, Yogyakarta, IndonesiaDepartment of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Islam Indonesia, Jl. Kaliurang Km 14, Sleman, Yogyakarta, IndonesiaDepartment of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Islam Indonesia, Jl. Kaliurang Km 14, Sleman, Yogyakarta, IndonesiaNanotechnology & Catalysis Research Centre, University of Malaya, Kuala Lumpur, 50603, MalaysiaDepartment of Advanced Materials Science and Engineering, Hanseo University, Seosan-si, 356-706, Republic of KoreaDepartment of Biomedical Engineering and Environmental Sciences, National Tsing Hua University, Hsinchu, 30013, TaiwanA nanocomposite of hydroxyapatite-supported Ag3PO4 (Ag3PO4/HA) was prepared by in-situ co-precipitation followed by hydrothermal method by utilizing cockle (Anadara granosa) shell as biogenic calcium source. The obtained nanocomposite was characterized by different instrumental analyses. X-ray diffraction spectroscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy analyses confirmed the formation of dispersed Ag3PO4 on HA structure with the particles size ranging at 10–40 nm. The material has band gap energy of 2.3 eV which support the activity as photocatalyst for rhodamine B degradation. The removal efficiency of 99.87% was expressed by the nanocomposite for 120 min of treatment, and reusability was demonstrated by insignificant change of the removal and kinetics constant for 5 cycles. The nanocomposite showed antibacterial activity against E. Coli, S. aureus, K. Pneumonia, and S. pyogenes.http://www.sciencedirect.com/science/article/pii/S2666016424001919AntibacterialAg3PO4HydroxyapatitePhotocatalystPhotodegradation |
| spellingShingle | Is Fatimah Rahmania Audita Gani Purwiandono Habibi Hidayat Suresh Sagadevan Won-Chun Oh Ruey-an Doong In-situ synthesis of hydroxyapatite-supported Ag3PO4 using cockle (Anadara granosa) shell as photocatalyst in rhodamine B photodegradation and antibacterial agent Case Studies in Chemical and Environmental Engineering Antibacterial Ag3PO4 Hydroxyapatite Photocatalyst Photodegradation |
| title | In-situ synthesis of hydroxyapatite-supported Ag3PO4 using cockle (Anadara granosa) shell as photocatalyst in rhodamine B photodegradation and antibacterial agent |
| title_full | In-situ synthesis of hydroxyapatite-supported Ag3PO4 using cockle (Anadara granosa) shell as photocatalyst in rhodamine B photodegradation and antibacterial agent |
| title_fullStr | In-situ synthesis of hydroxyapatite-supported Ag3PO4 using cockle (Anadara granosa) shell as photocatalyst in rhodamine B photodegradation and antibacterial agent |
| title_full_unstemmed | In-situ synthesis of hydroxyapatite-supported Ag3PO4 using cockle (Anadara granosa) shell as photocatalyst in rhodamine B photodegradation and antibacterial agent |
| title_short | In-situ synthesis of hydroxyapatite-supported Ag3PO4 using cockle (Anadara granosa) shell as photocatalyst in rhodamine B photodegradation and antibacterial agent |
| title_sort | in situ synthesis of hydroxyapatite supported ag3po4 using cockle anadara granosa shell as photocatalyst in rhodamine b photodegradation and antibacterial agent |
| topic | Antibacterial Ag3PO4 Hydroxyapatite Photocatalyst Photodegradation |
| url | http://www.sciencedirect.com/science/article/pii/S2666016424001919 |
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