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Semiconductor Alloys for Operation in the Solar-Blind Region

技術優勢

Functions in solar blind region Faster UV detection

技術應用

Covert space-to-space communications Missile threat detection Chemical or biological threat detection

詳細技術說明

The new semiconductor material is comprised of a single crystal cubic oxide substrate and an epitaxial cubic oxide alloy layer consisting of a transition metal or group IIA metal on the top surface of the substrate. The material has a sodium chloride structure, in which each of the two atom types form a separate face-centered cubic lattice, with the two lattices interpenetrating to form a 3D checkerboard pattern. Since there needs to be a matching of lattice structures between two different semiconductor materials in order to allow a region of band gap change, without introducing a change in the crystal structure, the cubic epitaxial material is lattice matched within 5% to the lattice of the substrate and as low as 1.5%.

*Abstract

UCF researchers have developed new cubic semiconductor alloys for UV photodetectors and light emitters for applications in covert space-to-space communications, missile threat detection, and chemical and biological threat detection.The upper ozone layer in our atmosphere absorbs nearly 100% of solar radiation for wavelengths shorter than 290 nanometers, creating the spectral region termed the solar-blind region. UV detectors that operate within this solar-blind region, are optimized to have sensitivity to UV-C and far UV radiation but little to no response to ground level solar spectrum providing the application specific spectral detection. These detectors use conventional hexagonal lattice structures in semiconductor photodetectors, but suffer from various problems including cracking due to strain and reduced internal quantum efficiency. In addition, difficulties often arise from the lack of a suitable lattice matched substrate, leading to higher dislocation densities. UV photodetectors and light emitters have drawn extensive attention, because of their unique capabilities of detection and ability to withstand harsh environments.In aerospace and defense applications, UV photodectors sense heat sources such as flames, jet engines, or missile plumes that emit light throughout the UV portion of the spectrum. By using these new semiconductor alloys in optoelectronic and microelectronic devices, the UV photodectors can now operate in the solar blind region allowing for faster, more reliable detection of threats or consistent communications in space.

*Principal Investigation

Name: Dr. Winston Schoenfeld

Department:

附加資料

Patent Number: US8362476B2
Application Number: US2010726545A
Inventor: Schoenfeld, Winston V.
Priority Date: 18 Mar 2009
Priority Number: US8362476B2
Application Date: 18 Mar 2010
Publication Date: 29 Jan 2013
IPC Current: H01L002910 | H01L002924
US Class: 257043 | 257055 | 257103
Assignee Applicant: University of Central Florida Research Foundation Inc.lando
Title: Cubic semiconductor alloys for deep UV applications
Usefulness: Cubic semiconductor alloys for deep UV applications
Summary: Cubic epitaxial article e.g. light-emitting diode, laser diode and broadband light source (all claimed). Uses include but are not limited to ultraviolet photodetector, semiconductor device, optical modulator and light emitters.
Novelty: Cubic epitaxial article e.g. light-emitting diode, has single crystal cubic oxide substrate having substrate band gap and top surface, and epitaxial cubic oxide alloy layer containing transition metal and/or element of group IIA

主要類別

光學

細分類別

發光二極管/有機發光二極管

國家/地區

美國