An alternative GaSb substrate allowing close-spaced sublimation of Cd0.9Zn0.1Te epitaxial thick film for radiation detectors. (15th August 2022)
- Record Type:
- Journal Article
- Title:
- An alternative GaSb substrate allowing close-spaced sublimation of Cd0.9Zn0.1Te epitaxial thick film for radiation detectors. (15th August 2022)
- Main Title:
- An alternative GaSb substrate allowing close-spaced sublimation of Cd0.9Zn0.1Te epitaxial thick film for radiation detectors
- Authors:
- Li, Yang
Cao, Kun
Zha, Gangqiang
Zhang, Xinlei
Wan, Xin
Zhao, Dou
Liu, Yajie
Jie, Wanqi - Abstract:
- Abstract: Cd0.9 Zn0.1 Te have been used for the high-performance room-temperature nuclear radiation detectors for decades. However, searching for more efficient growth methods of high-quality crystals is still an attractive research topic. This study proved the successful growth of high quality Cd0.9 Zn0.1 Te epitaxial thick films on GaSb (001) substrates using close-spaced sublimation method, where the lattice mismatch between GaSb and Cd0.9 Zn0.1 Te was −5.7%, much smaller than that between GaAs and Cd0.9 Zn0.1 Te (−13.9%). The interfacial mismatch dislocations on CdZnTe/GaSb heterojunctions were found to be much less than those of CdZnTe/GaAs, as confirmed by cross-sectional selected area electron diffraction patterns and high angle annular dark field images of transmission electron microscopy. Compared to Au/CdZnTe/GaAs, the FWHM of double crystal X-ray rocking curve and leakage current of Au/CdZnTe/GaSb detector were lower, and the resistivity and ( μ τ ) e were higher. The detector made from the as-grown CdZnTe/GaSb thick film was demonstrated to possess the energy resolution of 17% for 241 Am@59.54 KeV γ ray energy spectrum, indicated the potential application of GaSb as a suitable substrate for detector-grade CdZnTe film growth. Highlights: CdZnTe epitaxial thick films were successfully grown on GaSb substrates by close-spaced sublimation. Mismatch dislocations of CdZnTe/GaSb interface were found to be less than those of the CdZnTe/GaAs interface. Energy resolutionAbstract: Cd0.9 Zn0.1 Te have been used for the high-performance room-temperature nuclear radiation detectors for decades. However, searching for more efficient growth methods of high-quality crystals is still an attractive research topic. This study proved the successful growth of high quality Cd0.9 Zn0.1 Te epitaxial thick films on GaSb (001) substrates using close-spaced sublimation method, where the lattice mismatch between GaSb and Cd0.9 Zn0.1 Te was −5.7%, much smaller than that between GaAs and Cd0.9 Zn0.1 Te (−13.9%). The interfacial mismatch dislocations on CdZnTe/GaSb heterojunctions were found to be much less than those of CdZnTe/GaAs, as confirmed by cross-sectional selected area electron diffraction patterns and high angle annular dark field images of transmission electron microscopy. Compared to Au/CdZnTe/GaAs, the FWHM of double crystal X-ray rocking curve and leakage current of Au/CdZnTe/GaSb detector were lower, and the resistivity and ( μ τ ) e were higher. The detector made from the as-grown CdZnTe/GaSb thick film was demonstrated to possess the energy resolution of 17% for 241 Am@59.54 KeV γ ray energy spectrum, indicated the potential application of GaSb as a suitable substrate for detector-grade CdZnTe film growth. Highlights: CdZnTe epitaxial thick films were successfully grown on GaSb substrates by close-spaced sublimation. Mismatch dislocations of CdZnTe/GaSb interface were found to be less than those of the CdZnTe/GaAs interface. Energy resolution of 17% was measured for Au/CdZnTe/GaSb radiation detector for 241 Am@59.5 keV γ ray. … (more)
- Is Part Of:
- Materials science in semiconductor processing. Volume 147(2022)
- Journal:
- Materials science in semiconductor processing
- Issue:
- Volume 147(2022)
- Issue Display:
- Volume 147, Issue 2022 (2022)
- Year:
- 2022
- Volume:
- 147
- Issue:
- 2022
- Issue Sort Value:
- 2022-0147-2022-0000
- Page Start:
- Page End:
- Publication Date:
- 2022-08-15
- Subjects:
- Nuclear radiation detectors -- CdZnTe epitaxial Films -- GaSb substrates -- Interfacial mismatch dislocations
Semiconductors -- Periodicals
Integrated circuits -- Materials -- Periodicals
Semiconducteurs -- Périodiques
Circuits intégrés -- Matériaux -- Périodiques
Electronic journals
621.38152 - Journal URLs:
- http://www.sciencedirect.com/science/journal/latest/13698001 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.mssp.2022.106688 ↗
- Languages:
- English
- ISSNs:
- 1369-8001
- Deposit Type:
- Legaldeposit
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