Transient Radiation Imaging Based on a ZnO:Ga Single-Crystal Image Converter

Xu, Mengxuan; Chen, Liang; Yao, Zhiming; Shuqing, Ren; Zhang, Yuying; Huang, Feng; Ji, Xu; He, Chaohui; Zhou, Leidang; Hu, Jing; He, Shiyi; Zhao, Kuo; Ouyang, Xiaoping

doi:10.1038/s41598-018-22615-z

Cited by 12 publications

(5 citation statements)

References 39 publications

(35 reference statements)

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“…It is believed that such a scintillator with extremely fast decay time is of great importance in many research areas that require ultrafast scintillators. In addition, Xu [140] and Zhang [141] studied the application of ZnO:Ga scintillation crystals prepared by a hydrothermal method in pulsed radiation detection, as shown in Table 8. Table 8.…”

Section: The Application Research Status Of Zno:ga In Nuclear Detectionmentioning

confidence: 99%

Magnetron Sputtering for ZnO:Ga Scintillation Film Production and Its Application Research Status in Nuclear Detection

2019

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As a wide band-gap and direct transition semiconductor material, ZnO has good scintillation performance and strong radiation resistance, but it also has a serious self-absorption phenomenon that affects its light output. After being doped with Ga, it can be used for the scintillator of ultra-fast scintillating detectors to detect X-ray, gamma, neutron, and charged particles with extremely fast response and high light output. Firstly, the basic properties, defects, and scintillation mechanism of ZnO crystals are introduced. Thereafter, magnetron sputtering, one of the most attractive production methods for producing ZnO:Ga film, is introduced including the principle of magnetron sputtering and its technical parameters’ influence on the performance of ZnO:Ga. Finally, ZnO:Ga film’s application research status is presented as a scintillation material in the field of radiation detection, and it is concluded that some problems need to be urgently solved for its wider application.

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Section: The Application Research Status Of Zno:ga In Nuclear Detectionmentioning

confidence: 99%

Magnetron Sputtering for ZnO:Ga Scintillation Film Production and Its Application Research Status in Nuclear Detection

2019

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“…From Table 5, the FWHM of the as-grown GZO crystals is found to be 41.9 arcsec, which is lower than the currently reported values of GZO crystals. [22,37] The X-ray rocking curves imply that the as-grown GZO crystals have excellent lattice integrity. For the annealed samples, the GZO crystal orientation gradually deteriorates due to the increase of Ga-O and Zn-O bonds.…”

Section: Xrd Analysismentioning

confidence: 99%

Effect of Change in Valence State of Ga During Annealing on the Structural, Optical, and Electrical Properties of GZO Crystals

Liu

Fan

et al. 2021

Crystal Research and Technology

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In this work, the ZnO:Ga (GZO) single crystals are grown by the chemical vapor transport (CVT) method. The as-grown crystals are annealed under an oxygen atmosphere at different temperatures. The GZO crystal's structure and its optical and electrical properties are characterized by X-ray photoelectron spectroscopy (XPS), Raman spectroscopy, X-ray diffraction (XRD), UV-VIS spectrophotometry, and variable-temperature Hall-effect measurement. The XPS results indicate that the valence states of the majority of gallium atoms in the GZO crystals undergo transition from the metallic (Ga 0 ) to the non-metallic state (Ga x+ ) with increasing annealing temperature. The Raman and XRD results show that the compressive stress along the biaxial c-axis on GZO crystals increases gradually with annealing temperature. Meanwhile, the GZO crystal's transmittance within the range of 300 to 1000 nm is improved significantly from being opaque to about 57%. The GZO crystals exhibit a decrease in free-carrier concentration (10 20 -10 19 cm −3 ), an increase in carrier mobility (77.8-87.9 cm 2 /V −1 s −1 ) and resistivity (10 −4 -10 −2 •cm). The annealed GZO crystal's carrier concentration is practically independent of temperature (90-300 K). These results show that the free-carrier concentrations are affected by the change of valence states in gallium atoms present in the GZO crystal.

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“…ZnO has attracted much attention as a remarkable multi-functional material with a wide range of existing and emerging applications, such as varistors, , transparent conducting electrodes, − surface-acoustic-wave (SAW) devices, , gas sensors, , X-ray imaging systems, and thin-film transistors. − Several studies have reported that high-quality single-crystalline ZnO films grow on lattice-matched epitaxial substrates, such as bulk ZnO substrates and ScAlMgO 4 substrates. − However, these substrates are expensive and thus make ZnO films of potentially limited use for large-scale devices. Cost-effective c -plane sapphire is a promising candidate as a substrate for the epitaxial growth of ZnO films because of its cost efficiency if single-crystalline ZnO films grew by overcoming the obstacle of the large lattice mismatch of 18%, which causes a number of crystal defects including 30°-rotated domains and threshold dislocations. , …”

Section: Introductionmentioning

confidence: 99%

“…ZnO has attracted much attention as a remarkable multifunctional material with a wide range of existing and emerging applications, such as varistors, 1,2 transparent conducting electrodes, 3−9 surface-acoustic-wave (SAW) devices, 10,11 gas sensors, 12,13 X-ray imaging systems, 14 and thin-film transistors. 15−19 Several studies have reported that high-quality single-crystalline ZnO films grow on lattice-matched epitaxial substrates, such as bulk ZnO substrates and ScAlMgO 4 substrates.…”

Section: ■ Introductionmentioning

confidence: 99%

Growth of Single-Crystalline ZnO Films on 18%-Lattice-Mismatched Sapphire Substrates Using Buffer Layers with Three-Dimensional Islands

Nakamura

Yamashita

Kamataki

et al. 2022

Crystal Growth & Design

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Heteroepitaxial growth of single-crystalline zinc oxide (ZnO) films on a c-plane sapphire substrate is an important technology for electronics and optoelectronic devices. Recently, the inverted Stranski–Krastanov (SK) mode has been demonstrated, and it has realized the heteroepitaxial growth of ZnO films on a sapphire substrate by sputtering. In this mode, a 10 nm-thick buffer layer consisting of three-dimensional islands (3D buffer layers) initially forms and relaxes the strain, and then, a two-dimensional ZnO film (2D layer) grows involving small strain. To clarify the correlation between the structural properties of the 3D buffer layers and the 2D layer, we introduce a figure of merit (FOM) of ZnO films: the reciprocal of the product of the full width at half-maximum (FWHM) of the (002) and (101) planes of X-ray rocking curves (XRCs) and root-mean-square (RMS) roughness. We find that the FOM of the 2D layers correlates with the RMS roughness, the in-plane orientation, and the lateral correlation length ξ of the surfaces of the buffer layers. We observe a surprisingly high correlation coefficient of 0.97. Our results imply that on the buffer layers with larger ξ, adatoms more easily reach the thermodynamically favored lattice positions. Thus, high-quality single-crystalline ZnO films, where the (002) plane XRC-FWHM and the RMS roughness are 0.05° and 1.5 nm, respectively, are grown on the buffer layers with a large ξ of 13.7 nm. This finding provides a useful tool for understanding the mechanism of the inverted SK mode.

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Transient Radiation Imaging Based on a ZnO:Ga Single-Crystal Image Converter

Cited by 12 publications

References 39 publications

Magnetron Sputtering for ZnO:Ga Scintillation Film Production and Its Application Research Status in Nuclear Detection

Magnetron Sputtering for ZnO:Ga Scintillation Film Production and Its Application Research Status in Nuclear Detection

Effect of Change in Valence State of Ga During Annealing on the Structural, Optical, and Electrical Properties of GZO Crystals

Growth of Single-Crystalline ZnO Films on 18%-Lattice-Mismatched Sapphire Substrates Using Buffer Layers with Three-Dimensional Islands

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