Project Details
Abstract
Photoelectrochemical (PEC) reaction is the important research field in recent years. The
hydrogen production from the water or sea water using solar energy and photo-electrodes will
be the ultimate goal for clean energy society. However, the lifetime of the photocatalyst and
the cost of materials limit their industrial applications. The materials developments and
preparations, the optimization of post-annealing process and the simple method for the large
area deposition have to be taken into consideration. Therefore, we propose this project in
order to design a high efficiency photochemical device. The subjects of this project are the
preparation of photocatalytic thin films, and the analysis of PEC response of the samples. This
study include the preparation of Ag-Sn-S/Ag-Zn-Sn-S and Ag-Sn-S/Se/Ag-Zn-Sn-S/Se thin
films using non-vacuum method, experimental measurements of phase and physical
properties for the thin film and the simulation of possible annealing process using the basic
concepts of transport phenomena and unit operation. Finally, the photoelectrochemical
response of samples in aqueous solution will be realized. This project is consisted of
fundamental investigations of materials synthesis, theoretical analysis, and design of the
photochemical modulus. We believe that our approach can be the cornerstone of developing high efficiency photochemical reactor for photoelectrochemical applications.
Project IDs
Project ID:PB10308-2522
External Project ID:MOST103-2221-E182-059-MY3
External Project ID:MOST103-2221-E182-059-MY3
Status | Finished |
---|---|
Effective start/end date | 01/08/14 → 31/07/15 |
Keywords
- Photoelectrochemical reaction
- Solar energy
- Electrochemical technology
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