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Strategy to utilize amorphous phase of semiconductor toward excellent and reliable photochemical water splitting performance: Roles of interface dipole moment and reaction parallelization

Authors
Choi, HeechaeHan, HyukSuMoon, Seong-, IJe, Minyeong이승우Kwon, JiseokKim, SeungchulLee, Kwang-RyeolAli, GhulamMathur, SanjayPaik, UngyuQiao, Shi-ZhangSong, Taeseup
Issue Date
Mar-2022
Publisher
John Wiley & Sons Inc.
Keywords
charge separation; crystal-amorphous junction; DFT; photochemistry; reaction parallelization
Citation
International Journal of Energy Research, v.46, no.3, pp 1 - 12
Pages
12
Indexed
SCIE
SCOPUS
Journal Title
International Journal of Energy Research
Volume
46
Number
3
Start Page
1
End Page
12
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/187259
DOI
10.1002/er.7333
ISSN
0363-907X
1099-114X
Abstract
The roles of amorphous phases in photochemical water splitting of semiconductors are still in debate, as the effects of the amorphous phase are largely irregular even in a single material. We presumed that the photochemistry of crystal-amorphous mixed semiconductor systems would be governed by the interface characteristics, and conducted a systematic study to understand the origins of the largely varying photochemical reaction of semiconductors having an amorphous phase. First-principles calculations on crystalline anatase and amorphous TiO2 showed that the coexistence of crystalline and amorphous TiO2 and the exposure of the phase boundary are advantageous due to the accelerated charge separation by interface dipole moment and the parallelizable oxygen evolution reaction at the boundary. Our computation-based strategies were demonstrated in our experiments: only the TiO2 nanoparticle and nanotube having partial amorphization on surfaces have highly enhanced photocatalytic water splitting performances (approximately 700%) compared to the pristine and completely amorphized TiO2 systems.
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