TiO 2 films have been deposited on glass substrates using DC reactive magnetron sputtering at different oxygen partial pressures from 0.10Pa to 0.65Pa.The transmittance (UV vis) and photoluminescence (PL) spectra of...TiO 2 films have been deposited on glass substrates using DC reactive magnetron sputtering at different oxygen partial pressures from 0.10Pa to 0.65Pa.The transmittance (UV vis) and photoluminescence (PL) spectra of the films were recorded.The results of the UV vis spectra show that the deposition rate of the films decreased at oxygen partial pressure P(O 2)≥0.15Pa,the band gap increased from 3.48eV to 3.68eV for direct transition and from 3.27eV to 3.34eV for indirect transition with increasing the oxygen partial pressure.The PL spectra show convincingly that the transtion for films was indirect,and there were some oxygen defect energy levels at the band gap of the films.With increasing the O 2 partial pressure,the defect energy levels decreased.For the films sputtered at 0.35 and 0.65Pa there were two defect energy levels at 2.63eV and 2.41eV,corresponding to 0.72eV and 0.94eV below the conduction band for a band gap of 3.35eV,respectively.For the films sputtered at 0.10Pa and 0.15Pa,there was an energy band formed between 3.12eV and 2.06eV,corresponding to 0.23eV and 1.29eV below the conduction band.展开更多
The effect of silicon on synthesis of Ti3AlC2 by spark plasma sintering (SPS) from TiC/Ti/Al powders was investigated. X-ray diffraction (XRD) and scanning electron microscope (SEM) were used for phase identific...The effect of silicon on synthesis of Ti3AlC2 by spark plasma sintering (SPS) from TiC/Ti/Al powders was investigated. X-ray diffraction (XRD) and scanning electron microscope (SEM) were used for phase identification and microstructure evaluation. The results show that addition of silicon can considerably accelerate the synthesis reaction of Ti3AlC2 and fully dense, essentially single-phase (purity 〉98%) polycrystalline Ti3AlC2 could be successfully obtained by sintering 2TiC/lTi/lAl/0.2Si powders at 1 200- 1 250 ℃ under a pressure of 30 MPa. SEM photographs show that the obtained Ti3AlC2 samples from mixtures powders are in plane-shape with a size of about 2-5 μm and 10-25 μm in the thickness dimension and elongated dimension, respectively.展开更多
Nanocomposites offer a promising approach to the incorporation of nanostructured constituents into bulk thermo- electric materials. The 0.7-at% Bi-doped Mg2Si nanocomposites are prepared by spark plasma sintering of t...Nanocomposites offer a promising approach to the incorporation of nanostructured constituents into bulk thermo- electric materials. The 0.7-at% Bi-doped Mg2Si nanocomposites are prepared by spark plasma sintering of the mixture of nanoscale and microsized 0.7-at% Bi-doped Mg2Si powders. Microstructure analysis shows that the bulk material is composed of nano- and micrograins. Although the nanograin hinders electrical conduction, the nanocomposite struc- ture is more helpful to reduce thermal conductivity and increase the Seebeck coefficient, hence improving thermoelectric performance. A dimensionless figure of merit of 0.8 is obtained for the 0.7-at% Bi-doped Mg2Si nanocomposite with 50-wt % nanopowder, which is about twice larger than that of the sample without nanopowder.展开更多
文摘TiO 2 films have been deposited on glass substrates using DC reactive magnetron sputtering at different oxygen partial pressures from 0.10Pa to 0.65Pa.The transmittance (UV vis) and photoluminescence (PL) spectra of the films were recorded.The results of the UV vis spectra show that the deposition rate of the films decreased at oxygen partial pressure P(O 2)≥0.15Pa,the band gap increased from 3.48eV to 3.68eV for direct transition and from 3.27eV to 3.34eV for indirect transition with increasing the oxygen partial pressure.The PL spectra show convincingly that the transtion for films was indirect,and there were some oxygen defect energy levels at the band gap of the films.With increasing the O 2 partial pressure,the defect energy levels decreased.For the films sputtered at 0.35 and 0.65Pa there were two defect energy levels at 2.63eV and 2.41eV,corresponding to 0.72eV and 0.94eV below the conduction band for a band gap of 3.35eV,respectively.For the films sputtered at 0.10Pa and 0.15Pa,there was an energy band formed between 3.12eV and 2.06eV,corresponding to 0.23eV and 1.29eV below the conduction band.
基金the National Natural Science Foundation of China(No.50572080)
文摘The effect of silicon on synthesis of Ti3AlC2 by spark plasma sintering (SPS) from TiC/Ti/Al powders was investigated. X-ray diffraction (XRD) and scanning electron microscope (SEM) were used for phase identification and microstructure evaluation. The results show that addition of silicon can considerably accelerate the synthesis reaction of Ti3AlC2 and fully dense, essentially single-phase (purity 〉98%) polycrystalline Ti3AlC2 could be successfully obtained by sintering 2TiC/lTi/lAl/0.2Si powders at 1 200- 1 250 ℃ under a pressure of 30 MPa. SEM photographs show that the obtained Ti3AlC2 samples from mixtures powders are in plane-shape with a size of about 2-5 μm and 10-25 μm in the thickness dimension and elongated dimension, respectively.
基金supported by the National Basic Research Program of China (Grant No. 2007CB607501)the Fundamental Research Funds for the Central Universities
文摘Nanocomposites offer a promising approach to the incorporation of nanostructured constituents into bulk thermo- electric materials. The 0.7-at% Bi-doped Mg2Si nanocomposites are prepared by spark plasma sintering of the mixture of nanoscale and microsized 0.7-at% Bi-doped Mg2Si powders. Microstructure analysis shows that the bulk material is composed of nano- and micrograins. Although the nanograin hinders electrical conduction, the nanocomposite struc- ture is more helpful to reduce thermal conductivity and increase the Seebeck coefficient, hence improving thermoelectric performance. A dimensionless figure of merit of 0.8 is obtained for the 0.7-at% Bi-doped Mg2Si nanocomposite with 50-wt % nanopowder, which is about twice larger than that of the sample without nanopowder.
