Development of Zinc Selenide-based Z-scheme Photocatalyst for Photoreforming of Methanol

Chang, Lam

doi:10.26180/29963732.v1

Development of Zinc Selenide-based Z-scheme Photocatalyst for Photoreforming of Methanol

https://doi.org/10.26180/29963732

thesis

posted on 2025-08-21, 21:40 authored by Lam Chang

Photoreforming of methanol is a sustainable hydrogen (H2) generation route with formaldehyde (HCHO) as value-added by-products. This work delved into the development of photocatalyst system in maximising the photoreforming efficiency. In initial phase, amino acids were employed as green capping ligands to engineer the photocatalytic features of zinc selenide (ZnSe). Subsequently, silver carbonate (Ag2CO3) was incorporated to form an all-solid-state Z-scheme with reduced graphene oxide (rGO) as charge mediator. This is trailed by the optimization of rGO reduction degree which enhanced the photocatalytic performance of the resultant Z-scheme, achieving 88.6 and 246.7 µmol/g.hr of H2 and HCHO, respectively.<p></p>

History

Campus location

Malaysia

Principal supervisor

Estee Siek Ting Yong

Additional supervisor 1

Chai Siang Piao

Year of Award

2025

Department, School or Centre

School of Engineering (Monash University Malaysia)

Course

Doctor of Philosophy

Degree Type

DOCTORATE

Faculty

Faculty of Engineering

Rights Statement

The author retains copyright of this thesis. It must only be used for personal non-commercial research, education and study. It must not be used for any other purposes and may not be transmitted or shared with others without prior permission. For further terms use the In Copyright link under the License field.

Development of Zinc Selenide-based Z-scheme Photocatalyst for Photoreforming of Methanol

History

Campus location

Principal supervisor

Additional supervisor 1

Year of Award

Department, School or Centre

Course

Degree Type

Faculty

Rights Statement

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