Deep surface trap filling by photoinduced carriers and interparticle electron transport observed in TiO2 nanocrystalline film with time-resolved visible and Mid-IR transient spectroscopies

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	Deep surface trap filling by photoinduced carriers and interparticle electron transport observed in TiO2 nanocrystalline film with time-resolved visible and Mid-IR transient spectroscopies
	Zhao, H ; Zhang, QL ; Weng, YX
刊名	JOURNAL OF PHYSICAL CHEMISTRY C
	2007
卷号	111 期号:9 页码:3762
ISSN号	1932-7447
中文摘要	TiO2 nanocrystal and TiO2-xSiO(2) core/shell films were investigated by band gap excitation followed by detection of the photoinduced carriers with time-resolved transient absorption spectroscopy in both the visible and mid-IR range. The passivation of the TiO2 nanocrystal with the SiO2 shell has two goals, that is, reducing the surface-trapped states and segregating the TiO2 nanoparticles in the sintered film to prevent interparticle carrier migration. The results show that within the accessible mid-IR range (5-6.5 mu m) the observed transient absorptions of the TiO2 crystal and TiO2-xSiO(2) core/shell films exhibit an IR spectrum typical of intraband transition of free electrons where the observed absorption intensity is proportional to lambda(p) (lambda = wavelength/mu m), and p was determined as 2.6 for the TiO2 nanoparticle film and 4.9 for the TiO2-xSiO(2) core/shell composite film, respectively. Three typical kinetic phases for the transient IR absorption decay profile of the TiO2 film have been observed, that is, a rapid decay beyond the instrumental response time (similar to 80 ns), a bleaching recovery with a rising time constant around 1.8 mu s, and a very slow absorption decay component. The rapid decay phase is assigned as the free carrier recombination within the bulk crystal, whereas the bleaching recovery corresponds to the filling of the deep trapping sites by the shallow trapped electrons, and finally the very slow absorption component is assigned to the interparticle electron transport and deep trapped electron-hole recombination. For the TiO2-xSiO(2) core/shell film, only the rapid decay phase can be observed. During the visible light detection, a broad-band transient absorption with a peak located at about 650 nm has been observed for the TiO2 nanoparticle film, which is expected for the absorption from the shallow trapped electrons, while the corresponding carrier relaxation kinetics can be fitted by a monoexponential decay with a time constant of about 1.8 mu s, correlating well to the deep trap filling process revealed by IR absorption. It is thus assigned as the filling of the deep trapped sites by the shallow trapped electrons. In contrast, no observable transient absorption can be detected at 650 nm for the TiO2-xSiO(2) core/shell film. As a result, the facts from both the IR and visible light detections indicate that the passivation of SiO2 reduces the density of the trapped state on TiO2 nanoparticle surface substantially and blocks the interparticle carrier migration efficiently.
收录类别	SCI
公开日期	2013-09-17
内容类型	期刊论文
源URL	[http://ir.iphy.ac.cn/handle/311004/35664]
专题	物理研究所_物理所公开发表论文_物理所公开发表论文_期刊论文
推荐引用方式 GB/T 7714	Zhao, H,Zhang, QL,Weng, YX. Deep surface trap filling by photoinduced carriers and interparticle electron transport observed in TiO2 nanocrystalline film with time-resolved visible and Mid-IR transient spectroscopies[J]. JOURNAL OF PHYSICAL CHEMISTRY C,2007,111(9):3762.
APA	Zhao, H,Zhang, QL,&Weng, YX.(2007).Deep surface trap filling by photoinduced carriers and interparticle electron transport observed in TiO2 nanocrystalline film with time-resolved visible and Mid-IR transient spectroscopies.JOURNAL OF PHYSICAL CHEMISTRY C,111(9),3762.
MLA	Zhao, H,et al."Deep surface trap filling by photoinduced carriers and interparticle electron transport observed in TiO2 nanocrystalline film with time-resolved visible and Mid-IR transient spectroscopies".JOURNAL OF PHYSICAL CHEMISTRY C 111.9(2007):3762.