Understanding the pulsed laser‐induced modification processes of TiO 2 nanomaterials in aqueous solution
Three different types of TiO 2 nanoparticles in anatase and rutile phases were subject to nanosecond 532‐nm laser pulses in aqueous solution for enhanced reactivity in photocatalytic applications. Color changes observed during the laser processes resulted from laser pulse‐induced heating of TiO 2 su...
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| Veröffentlicht in: | Bulletin of the Korean Chemical Society 2023-07, Vol.44 (7), p.634-644 |
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| container_title | Bulletin of the Korean Chemical Society |
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| creator | An, Hee Jun Carl, Nkenku Yoo, Youngdong Kang, Hyuk Kim, Yu Kwon |
| description | Three different types of TiO
2
nanoparticles in anatase and rutile phases were subject to nanosecond 532‐nm laser pulses in aqueous solution for enhanced reactivity in photocatalytic applications. Color changes observed during the laser processes resulted from laser pulse‐induced heating of TiO
2
surfaces to form surface disorder with surface defects. Interestingly, TiO
2
nanoparticles with different size and bulk phases undergo different changes in surface morphology, bulk phase, and defect density under the same laser pulses. The results are related with the differences in the absorption by initial defects on the TiO
2
surface. Our results show that the type and density of initial defects within TiO
2
matrix are important in determining subsequent thermal equilibrium‐driven changes. It is suggested that nanosecond laser pulses with energies lower than the bandgap of the semiconductor materials provide a chance for selective modification of oxide nanomaterials such as TiO
2
for a new photoresponsive functionality in diverse applications. |
| doi_str_mv | 10.1002/bkcs.12705 |
| format | Article |
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2
nanoparticles in anatase and rutile phases were subject to nanosecond 532‐nm laser pulses in aqueous solution for enhanced reactivity in photocatalytic applications. Color changes observed during the laser processes resulted from laser pulse‐induced heating of TiO
2
surfaces to form surface disorder with surface defects. Interestingly, TiO
2
nanoparticles with different size and bulk phases undergo different changes in surface morphology, bulk phase, and defect density under the same laser pulses. The results are related with the differences in the absorption by initial defects on the TiO
2
surface. Our results show that the type and density of initial defects within TiO
2
matrix are important in determining subsequent thermal equilibrium‐driven changes. It is suggested that nanosecond laser pulses with energies lower than the bandgap of the semiconductor materials provide a chance for selective modification of oxide nanomaterials such as TiO
2
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2
nanoparticles in anatase and rutile phases were subject to nanosecond 532‐nm laser pulses in aqueous solution for enhanced reactivity in photocatalytic applications. Color changes observed during the laser processes resulted from laser pulse‐induced heating of TiO
2
surfaces to form surface disorder with surface defects. Interestingly, TiO
2
nanoparticles with different size and bulk phases undergo different changes in surface morphology, bulk phase, and defect density under the same laser pulses. The results are related with the differences in the absorption by initial defects on the TiO
2
surface. Our results show that the type and density of initial defects within TiO
2
matrix are important in determining subsequent thermal equilibrium‐driven changes. It is suggested that nanosecond laser pulses with energies lower than the bandgap of the semiconductor materials provide a chance for selective modification of oxide nanomaterials such as TiO
2
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2
nanoparticles in anatase and rutile phases were subject to nanosecond 532‐nm laser pulses in aqueous solution for enhanced reactivity in photocatalytic applications. Color changes observed during the laser processes resulted from laser pulse‐induced heating of TiO
2
surfaces to form surface disorder with surface defects. Interestingly, TiO
2
nanoparticles with different size and bulk phases undergo different changes in surface morphology, bulk phase, and defect density under the same laser pulses. The results are related with the differences in the absorption by initial defects on the TiO
2
surface. Our results show that the type and density of initial defects within TiO
2
matrix are important in determining subsequent thermal equilibrium‐driven changes. It is suggested that nanosecond laser pulses with energies lower than the bandgap of the semiconductor materials provide a chance for selective modification of oxide nanomaterials such as TiO
2
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| source | Access via Wiley Online Library |
| title | Understanding the pulsed laser‐induced modification processes of TiO 2 nanomaterials in aqueous solution |
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