Structure, composition and evolution of dispersive optical constants of sputtered TiO<sub>2</sub>thin films: effects of nitrogen doping

He, Gang; Zhang, L D; Li, G H; Liu, M; Wang, X J

doi:10.1088/0022-3727/41/4/045304

Cited by 57 publications

(42 citation statements)

References 54 publications

(61 reference statements)

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“…According to the slope of SE plots, the dynamic dielectric constant εr is 2.61, and refractive index is 1.62 calculated by n=εr 1/2 , which agree with results of previous reports [36][37][38].…”

Section: Leakage Current-conduction Mechanism Analysissupporting

confidence: 90%

Passivation of Ge surface treated with trimethylaluminum and investigation of electrical properties of HfTiO/Ge gate stacks

Gao

Xiao

et al. 2017

Journal of Materials Science & Technology

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Section: Leakage Current-conduction Mechanism Analysissupporting

confidence: 90%

Passivation of Ge surface treated with trimethylaluminum and investigation of electrical properties of HfTiO/Ge gate stacks

Gao

Xiao

et al. 2017

Journal of Materials Science & Technology

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“…The physical data of Au, Cr 2 O 3 , and ITO are incorporated via the complex dielectric constant measured by spectroscopic ellipsometry. The data for TiO 2 is derived from measurements by spectroscopic ellipsometry based on an amorphous dispersive model [31]. Data for Cr and Ti are taken from handbook data [32].…”

Section: Simulation Modelmentioning

confidence: 99%

“…The extinction coefficient, however, is slightly higher than expected, presumably due to the low partial pressure of O 2 during deposition. The optical properties of TiO 2 are taken from reference [46] and are plotted in Fig. 13.…”

Section: Dielectric Properties Of Timentioning

confidence: 99%

Localization of Near-Field Resonances in Bowtie Antennae: Influence of Adhesion Layers

et al. 2008

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The near-field resonances of gold bowtie antennae are numerically modeled. Besides the shortrange surface plasmon polariton (SR-SPP) mode along the main axis of the structure, a coupled SPP mode is also found in the gap region (G-SPP). The influence of adhesion layers is considered, which depends on the refractive index and the absorption of the adhesion material and whether it is continuous or etched. A high refractive index causes the peak of the SR-SPP to redshift. High absorption quenches the intensity of the SR-SPP. The magnitude of influence depends on the overlap of the adhesion layer with the SR-SPP and G-SPP modes. The near-field resonance of the SPP mode on the top surface is also considered. An etched metal adhesion layer changes the near-field localization in the gap and causes the enhancement peaks at different heights within the gap to red-shift from top to bottom. A simple optimization method for the nearfield localization by the combination of different top and bottom layers is demonstrated.

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“…The impacts of TiO 2 NPs on biological systems at cellular level have been put forward recently by scientists and organization [2,[8][9][10][11][12]. TiO 2 NPs can produce free radicals and exhibit a strong oxidizing ability [4,13,14], then affect cellular activity.…”

Section: Introductionmentioning

confidence: 99%

In Vitro Toxicity Evaluation of 25-nm Anatase TiO2 Nanoparticles in Immortalized Keratinocyte Cells

Jin

Tang

Guang

et al. 2011

Biol Trace Elem Res

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Titanium dioxide (TiO(2)) nanoparticles (NPs) are massively fabricated and widely used in daily life, and thus potential risk has been posed to human health. However, the mechanism of the interaction between TiO(2) NPs and cells is still unclear. In this study, the interaction of anatase TiO(2) NPs with HaCaT cells is studied in vitro with multi-techniques. The TiO(2) NPs not only insert into cells through endocytic pathway but also penetrate into the cell. The TiO(2) NPs could produce reactive oxygen species (ROS) after dispersion spontaneously. Furthermore, the interaction between TiO(2) NPs and cellular components might also generate ROS. The ROS generation could lead to cellular toxicity if the level of ROS production overwhelms the antioxidant defense. Cytoskeletal components, particularly the microfilaments and microtubules, cause modifications upon exposure to TiO(2) NPs. With all results, the toxicological effects of TiO(2) NPs on HaCaT cell can be simplified into six events.

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Structure, composition and evolution of dispersive optical constants of sputtered TiO₂thin films: effects of nitrogen doping

Cited by 57 publications

References 54 publications

Passivation of Ge surface treated with trimethylaluminum and investigation of electrical properties of HfTiO/Ge gate stacks

Passivation of Ge surface treated with trimethylaluminum and investigation of electrical properties of HfTiO/Ge gate stacks

Localization of Near-Field Resonances in Bowtie Antennae: Influence of Adhesion Layers

In Vitro Toxicity Evaluation of 25-nm Anatase TiO2 Nanoparticles in Immortalized Keratinocyte Cells

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Structure, composition and evolution of dispersive optical constants of sputtered TiO2thin films: effects of nitrogen doping

Cited by 57 publications

References 54 publications

Passivation of Ge surface treated with trimethylaluminum and investigation of electrical properties of HfTiO/Ge gate stacks

Passivation of Ge surface treated with trimethylaluminum and investigation of electrical properties of HfTiO/Ge gate stacks

Localization of Near-Field Resonances in Bowtie Antennae: Influence of Adhesion Layers

In Vitro Toxicity Evaluation of 25-nm Anatase TiO2 Nanoparticles in Immortalized Keratinocyte Cells

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Structure, composition and evolution of dispersive optical constants of sputtered TiO₂thin films: effects of nitrogen doping