Optoelectronic properties and electronic structure of YCuOSe
スポンサーリンク
概要
- 論文の詳細を見る
YCuOSe was prepared by solid-state reaction, and its wide gap semiconducting properties were examined. The single phase of YCuOSe was obtained in a limited temperature range around 750 °C and decomposed into Y2O2Se and Cu2Se at higher temperatures. The obtained YCuOSe sample showed a p-type semiconducting behavior with the electrical conductivity of 1.4×10−1 S cm−1 at room temperature. The band gap of YCuOSe was estimated to be 2.58 eV, which is much smaller than that of LaCuOSe (2.82 eV). The electronic structure of YCuOSe was investigated by ultraviolet photoemission spectroscopy and energy band calculations to understand the differences in the electronic structures between LnCuOSe (Ln=La,Y). It was found that the Cu–Cu distance rather than the Cu–Se distance influences the electronic structures, and the smaller band gap of YCuOSe is attributed to the downshift of the Cu 4s energy level due to the smaller Cu–Cu distance and the consequent larger Cu–Cu interaction in YCuOSe.
- American Institute of Physicsの論文
- 2007-12-10
著者
-
Hirano M
Erato-sorst Japan Science And Technology Agency (jst) In Frontier Research Center Tokyo Institute Of
-
Hosono H
Erato-sorst Japan Science And Technology Agency (jst) In Frontier Research Center Tokyo Institute Of
関連論文
- Simple Criterion on Colloid Formation in SiO_2 Glasses by Ion Implantation
- Isotope Effect on the Infrared Photoluminescence Decay of Interstitial Oxygen Molecules in Amorphous SiO_2
- Photoluminescence from Epitaxial Films of Perovskite-type Alkaline-earth Stannates
- Preparation of Semiconductive La-Doped BaSnO_3 by a Polymerized Complex Method and the Thermoelectric Properties
- Atomic and Electronic Structures of Ni/YSZ(111) Interface
- Superconductivity in Epitaxial Thin Films of Co-Doped SrFe_2As_2 with Bilayered FeAs Structures and their Magnetic Anisotropy
- Optoelectronic properties and electronic structure of YCuOSe
- Thermoelectric Properties of the Layered Cobaltite Ca_3Co_4O_9 Epitaxial Films Fabricated by Topotactic Ion-Exchange Method
- Anion Incorporation-induced Cage Deformation in 12CaO・7Al_2O_3 Crystal
- Function Cultivation of Transparent Oxides Utilizing Built-In Nanostructure
- Bipolar Room Temperature Ferromagnetic Semiconductor LaMnOP
- Applications of Wide-Band-Gap Materials for Optoelectronic Functional Devices Fabricated by a Pair of Interfering Femtosecond Laser Pulses
- Femtosecond-laser-encoded distributed-feedback color center laser in lithium fluoride single crystals
- 09-P-07 Thermoelectric Properties of Single-Crystalline Thin Films of ITO and (ZnO)_mIn_2O_3 Grown by Reactive Solid-Phase Epitaxy
- 09-I-05 Single-Crystalline Film Growth of Transparent Oxide Semiconductors
- 02-I-03A Encoding of Micro-Grating Structures in Non-Photosensitive Materials by Two Beam Interference of a Single Femtosecond Laser Pulse
- Formation of Microstructure in SiO_2 Thin Film by a Femtosecond Laser Pulse
- Ultraviolet Femtosecond Pulse Amplification with High Gain Using Solid-State, Broad-Band Gain Medium Ce^: LiCaAlF_6
- Holographic Encoding of Permanent Gratings Embedded in Diamond by Two Beam Interference of a Single Femtosecond Near-Infrared Laser Pulse
- 15-O-08 HRTEM Characterization of Atomic Structures in Cu/α-Al_2O_3 Interfaces
- Generation of Intense 25-fs Pulses at 290 nm by Use of a Hollow Fiber Filled With High-Pressure Argon Gas : Optics and Quantum Electronics
- 23pWH-15 Characterization of Ba(Fe_Co_x)_2As_2 thin films by magnetization, transport and Hall measurements
- Formation and Optical Absorption Spectra of Mixed Valence State of Tl in Tl_2Nb_2O_ with Pyrochlore Structure
- Novel Transparent and Electroconductive Amorphous Semiconductor:Amorphous AgSbO_3 Film
- New Oxide Phase Cd_Y_Sb_2O_7 Pyrochlore with a Wide Band Gap and High Electrical Conductivity
- Application of a Microporous Glass-Ceramics with a Skeleton of CaTi_4(PO_4)_6 to Carriers for Immobilization of Enzymes
- High Critical Current Density 4MA/cm^2 in Co-Doped BaFe_2As_2 Epitaxial Films Grown on (La,Sr)(Al,Ta)O_3 Substrates without Buffer Layers
- Thermoelectric Properties of P-Type BaSnO_3 Ceramics Doped with Cobalt