Pt-TiO2nanotube on FTO glass for photocatalytic degradation of liquid waste of nata de coco production

Denar Zuliandanu; Jarnuzi Gunlazuardi

doi:10.1063/5.0125768

Pt-TiO₂nanotube on FTO glass for photocatalytic degradation of liquid waste of nata de coco production

Denar Zuliandanu, Jarnuzi Gunlazuardi

Department of Chemistry

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

A study on photocatalytic degradation of nata de coco wastewater have been carried out using a TiO2 nanotube (TNT) catalyst modified with Pt metal and immobilized on fluorine-doped tin oxide conductive glass (FTO) using a drop of TiO2 sol containing Ti(OBu)4 and polyethylene glycol, followed by calcinations at 450 °C. The synthesis result was characterized by FTIR and scanning electron microscope. The catalyst was put in a batch reactor containing liquid waste and irradiated by visible light. The occurrence of degradation was indicated by decrease in the value of COD (chemical oxygen demand), ammonia, and acetic acid of liquid waste. The decrease of COD value reached 58% at a concentration of Pt 65 mM. The shift in absorption from UV to visible light was indicated by the activity of the Pt-modified catalyst being greater than that of the unmodified catalyst.

Original language	English
Title of host publication	2nd International Conference on Chemistry and Science Education
Subtitle of host publication	Improving the Research Quality in Chemistry and Natural Science Education for the Upcoming Challenges to Face the 5th Industrial Revolution
Editors	Guspatni, Zonalia Fitriza, Budhi Oktavia
Publisher	American Institute of Physics Inc.
ISBN (Electronic)	9780735444522
DOIs	https://doi.org/10.1063/5.0125768
Publication status	Published - 24 Apr 2023
Event	2nd International Conference on Chemistry and Science Education: Improving the Research Quality in Chemistry and Natural Science Education for the Upcoming Challenges to Face the 5th Industrial Revolution, ICChSE 2021 - Virtual, Online Duration: 4 Aug 2021 → 5 Aug 2021

Publication series

Name	AIP Conference Proceedings
Volume	2673
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Conference

Conference	2nd International Conference on Chemistry and Science Education: Improving the Research Quality in Chemistry and Natural Science Education for the Upcoming Challenges to Face the 5th Industrial Revolution, ICChSE 2021
City	Virtual, Online
Period	4/08/21 → 5/08/21

Access to Document

10.1063/5.0125768

Cite this

Zuliandanu, D., & Gunlazuardi, J. (2023). Pt-TiO₂nanotube on FTO glass for photocatalytic degradation of liquid waste of nata de coco production. In Guspatni, Z. Fitriza, & B. Oktavia (Eds.), 2nd International Conference on Chemistry and Science Education: Improving the Research Quality in Chemistry and Natural Science Education for the Upcoming Challenges to Face the 5th Industrial Revolution Article 050002 (AIP Conference Proceedings; Vol. 2673). American Institute of Physics Inc.. https://doi.org/10.1063/5.0125768

Zuliandanu, Denar ; Gunlazuardi, Jarnuzi. / Pt-TiO₂nanotube on FTO glass for photocatalytic degradation of liquid waste of nata de coco production. 2nd International Conference on Chemistry and Science Education: Improving the Research Quality in Chemistry and Natural Science Education for the Upcoming Challenges to Face the 5th Industrial Revolution. editor / Guspatni ; Zonalia Fitriza ; Budhi Oktavia. American Institute of Physics Inc., 2023. (AIP Conference Proceedings).

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abstract = "A study on photocatalytic degradation of nata de coco wastewater have been carried out using a TiO2 nanotube (TNT) catalyst modified with Pt metal and immobilized on fluorine-doped tin oxide conductive glass (FTO) using a drop of TiO2 sol containing Ti(OBu)4 and polyethylene glycol, followed by calcinations at 450 °C. The synthesis result was characterized by FTIR and scanning electron microscope. The catalyst was put in a batch reactor containing liquid waste and irradiated by visible light. The occurrence of degradation was indicated by decrease in the value of COD (chemical oxygen demand), ammonia, and acetic acid of liquid waste. The decrease of COD value reached 58% at a concentration of Pt 65 mM. The shift in absorption from UV to visible light was indicated by the activity of the Pt-modified catalyst being greater than that of the unmodified catalyst.",

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Zuliandanu, D & Gunlazuardi, J 2023, Pt-TiO₂nanotube on FTO glass for photocatalytic degradation of liquid waste of nata de coco production. in Guspatni, Z Fitriza & B Oktavia (eds), 2nd International Conference on Chemistry and Science Education: Improving the Research Quality in Chemistry and Natural Science Education for the Upcoming Challenges to Face the 5th Industrial Revolution., 050002, AIP Conference Proceedings, vol. 2673, American Institute of Physics Inc., 2nd International Conference on Chemistry and Science Education: Improving the Research Quality in Chemistry and Natural Science Education for the Upcoming Challenges to Face the 5th Industrial Revolution, ICChSE 2021, Virtual, Online, 4/08/21. https://doi.org/10.1063/5.0125768

Pt-TiO₂nanotube on FTO glass for photocatalytic degradation of liquid waste of nata de coco production. / Zuliandanu, Denar; Gunlazuardi, Jarnuzi.
2nd International Conference on Chemistry and Science Education: Improving the Research Quality in Chemistry and Natural Science Education for the Upcoming Challenges to Face the 5th Industrial Revolution. ed. / Guspatni; Zonalia Fitriza; Budhi Oktavia. American Institute of Physics Inc., 2023. 050002 (AIP Conference Proceedings; Vol. 2673).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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Zuliandanu D, Gunlazuardi J. Pt-TiO₂nanotube on FTO glass for photocatalytic degradation of liquid waste of nata de coco production. In Guspatni, Fitriza Z, Oktavia B, editors, 2nd International Conference on Chemistry and Science Education: Improving the Research Quality in Chemistry and Natural Science Education for the Upcoming Challenges to Face the 5th Industrial Revolution. American Institute of Physics Inc. 2023. 050002. (AIP Conference Proceedings). doi: 10.1063/5.0125768