Atomically-thin In(OH)3 nanosheets towards photocatalytic CO2-to-CO conversion

In this work, Indium compounds photocatalyst will be explored due to their high catalytic activities for photooxidation and photoreduction ability under visible light irradiation. This project will cover and concentrate on the synthetization of Indium-containing nanostructured 2D materials that demo...

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Main Author: Kang, Wei Kiat
Other Authors: Liu Zheng
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2020
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Online Access:https://hdl.handle.net/10356/138578
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spelling sg-ntu-dr.10356-1385782023-03-04T15:44:03Z Atomically-thin In(OH)3 nanosheets towards photocatalytic CO2-to-CO conversion Kang, Wei Kiat Liu Zheng School of Materials Science and Engineering z.liu@ntu.edu.sg Engineering::Materials In this work, Indium compounds photocatalyst will be explored due to their high catalytic activities for photooxidation and photoreduction ability under visible light irradiation. This project will cover and concentrate on the synthetization of Indium-containing nanostructured 2D materials that demonstrate photocatalytic activity under solar irradiation wave spectrum with the key process of reducing CO2. Investigation was carefully carried out via X-Ray diffraction, UV-visible absorption spectroscopy, Atomic force measurement, scanning electron microscope (SEM) and Transmission electron microscope (TEM) to determine the phase compositions, optical properties and morphologies of the photocatalyst. In this chapter, properties, preparation, and function of indium compound nanomaterials used as photocatalysis for the reduction of CO2 will be systematically summarized, which is favourable for understanding the functionality and developing the potential photocatalyst applications. Bachelor of Engineering (Materials Engineering) 2020-05-09T06:32:25Z 2020-05-09T06:32:25Z 2020 Final Year Project (FYP) https://hdl.handle.net/10356/138578 en application/pdf Nanyang Technological University
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Materials
spellingShingle Engineering::Materials
Kang, Wei Kiat
Atomically-thin In(OH)3 nanosheets towards photocatalytic CO2-to-CO conversion
description In this work, Indium compounds photocatalyst will be explored due to their high catalytic activities for photooxidation and photoreduction ability under visible light irradiation. This project will cover and concentrate on the synthetization of Indium-containing nanostructured 2D materials that demonstrate photocatalytic activity under solar irradiation wave spectrum with the key process of reducing CO2. Investigation was carefully carried out via X-Ray diffraction, UV-visible absorption spectroscopy, Atomic force measurement, scanning electron microscope (SEM) and Transmission electron microscope (TEM) to determine the phase compositions, optical properties and morphologies of the photocatalyst. In this chapter, properties, preparation, and function of indium compound nanomaterials used as photocatalysis for the reduction of CO2 will be systematically summarized, which is favourable for understanding the functionality and developing the potential photocatalyst applications.
author2 Liu Zheng
author_facet Liu Zheng
Kang, Wei Kiat
format Final Year Project
author Kang, Wei Kiat
author_sort Kang, Wei Kiat
title Atomically-thin In(OH)3 nanosheets towards photocatalytic CO2-to-CO conversion
title_short Atomically-thin In(OH)3 nanosheets towards photocatalytic CO2-to-CO conversion
title_full Atomically-thin In(OH)3 nanosheets towards photocatalytic CO2-to-CO conversion
title_fullStr Atomically-thin In(OH)3 nanosheets towards photocatalytic CO2-to-CO conversion
title_full_unstemmed Atomically-thin In(OH)3 nanosheets towards photocatalytic CO2-to-CO conversion
title_sort atomically-thin in(oh)3 nanosheets towards photocatalytic co2-to-co conversion
publisher Nanyang Technological University
publishDate 2020
url https://hdl.handle.net/10356/138578
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