Doping and Surface Modification of Ti02 with Cr3+, Fe3+ and Cu2+ as Photocatalyst Materials
Photocatalyst Ti02 has been commonly used to degrade dyes but its working range is st ill limited to the range of UV light and certai n dyes. In t hi s research, doping and surface modification of Ti02 with C. Fe 3 and Cu1 "'"ere carried out to i...
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/38557 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Photocatalyst Ti02 has been commonly used to degrade dyes but its working range is st ill
limited to the range of UV light and certai n dyes. In t hi s research, doping and surface
modification of Ti02 with C. Fe 3 and Cu1
"'"ere carried out to increase the photocatalytic
acti v ity. The X -ray d i ffraction characterization results shows the decreasing of lattice parameters a and c on surface-mod i fied Ti01 and the increasing of lattice parameters a and c on Cu" and Fe' -doped Ti02 compared to the pure Ti02. The reduction in Ti01 (3.1 6 eV) band gap energy due to doping is greater than surface modification. The photocatalytic test was carried out on the degradation of Methylene Blue and Bromothymol Blue under UV and visible light. The best photocatalytic performance were obtained by Ti02. surface-mod ified
Ti02. and doped Ti02. respectivel y. Among all modified Ti02, surface modified Ti02 with Cu2 has the best photocata l ytic acti vity to degrade Methy lene Blue under UV light (k = 23,7 x 10•3 minute•1) and visible l i ght (k = I , I x I o•3 minutes•1 ) as well as Bromot hymol Blue degradati on under uv light ( k = 3,6 X I o•' minutes- 1). For the degradation of Bromothymol
Blue under the vi sible li ght, surface modified Ti02 w i th Fe3
has the best activity (k = 3 x I o
minute- 1 .
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