Photoinduced Reactions of Surface-Bound Species on Titania Nanotubes and Platinized Titania Nanotubes: An in Situ FTIR Study
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- 作者:Weiqiang Wu ; Kaustava Bhattacharyya ; Kimberly Gray ; Eric Weitz
- 刊名:Journal of Physical Chemistry C
- 出版年:2013
- 出版时间:October 10, 2013
- 年:2013
- 卷:117
- 期:40
- 页码:20643-20655
- 全文大小:772K
- 年卷期:v.117,no.40(October 10, 2013)
- ISSN:1932-7455
文摘
Photoinduced conversion of surface-bound species on titania nanotubes that were first oxidized and then reduced (Ti鈥揘T鈥揙2鈥揌2) and on platinized titania nanotubes subjected to oxidation and reduction (Pt鈥揟i鈥揘T鈥揙2鈥揌2) has been investigated by means of in situ FTIR spectroscopy. Bidentate and monodentate carbonates as well as bicarbonates and carboxylates are formed subsequent to exposure of both Ti鈥揘T鈥揙2鈥揌2 and Pt鈥揟i鈥揘T鈥揙2鈥揌2 to CO2. Formic acid was only observed on Pt鈥揟i鈥揘T鈥揙2鈥揌2. UV illumination of the nanotubes led to an increase in the number of surface-bound species as a result of the further reaction with gas-phase CO2 with a greater increase in surface species on Ti鈥揘T鈥揙2鈥揌2 than on Pt鈥揟i鈥揘T鈥揙2鈥揌2. The underlying basis of the photoinduced increase in adsorbed species is discussed for both types of nanotubes. Photoinduced reactions of surface species also take place and are remarkably different on the two types of nanotubes. UV illumination of Ti鈥揘T鈥揙2鈥揌2 converts bidentate carbonates and bicarbonates to monodentate carbonates and carboxylates. There are less, and different, photoinduced reactions of surface species on Pt鈥揟i鈥揘T鈥揙2鈥揌2: bicarbonates and monodentate carbonates convert to bidentate carbonates on the platinized titania nanotubes, and there is no obvious reaction involving carboxylates and formic acid upon irradiation of the platinized nanotubes. These differences in reactive behavior are discussed in the context of platinum acting as an efficient trap for photoelectrons which mitigates against reduction of Ti4+ to Ti3+, stabilizes holes, and alters the surface photochemistry taking place on the two different types of nanotubes. Photoinduced holes play an important role in photochemistry via oxidation of 鈥渟tructural water鈥?and concomitant production of undercoordinated titania sites.