Structural Damage and Recrystallization Response of Garnet Crystals to Intense Electronic Excitation

Han, Xinqing; Zarkadoula, Eva; Crespillo, Miguel L.; Huang, Qing; Pan, Shangfa; Liu, Cong; Zhang, Meng; Wang, Xuelin; Liu, Peng

doi:10.1002/adfm.202212853

Adv Funct Materials

2022

DOI: 10.1002/adfm.202212853

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Structural Damage and Recrystallization Response of Garnet Crystals to Intense Electronic Excitation

Xinqing Han

Eva Zarkadoula

Miguel L. Crespillo

et al.

Abstract: The susceptibility to irradiation-induced damage, the fundamental mechanism of the relaxation kinetics, and the corresponding recrystallization effect related to the cation radius ratio are comprehensively investigated for Y 3 Al 5 O 12 and Gd 3 Ga 5 O 12 garnet crystals under 645 MeV Xe 35+ irradiation with different fluences of 5 × 10 11 -3 × 10 12 ions cm −2 . Regarding different lattice distortion and swelling levels, the observed microstructure transformations to disordered and amorphous phases, and corre… Show more

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2024

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Cited by 6 publications

References 77 publications

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Tailoring the Electronic Structures and Spectral Properties of ZnO with Irradiation Defects Generated Under Intense Electronic Excitation: A Combined Experimental and DFT Approach

Han,

Li,

Pan

et al. 2024

Adv Funct Materials

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The relationship between the composition of the internal defect states, spectral properties, and correlated electronic structures of wurtzite zinc oxide (ZnO) crystals under 645 MeV Xe35+ irradiation is systematically investigated, employing experimental characterizations combined with first‐principle calculations. Based on the ion irradiation‐induced thermal expansion and relaxation processes, the high concentration of vacancy/interstitial defects produced from the transient disordered phase in molten track states trigger photoelectric changes, as follows: i) the generation of internal defect states effectively reduces the intrinsic bandgap (3.25 eV → 2.66 eV); ii) a large number of defective active sites inhibits the recombination between electron–hole pairs, causing dark conductance and photoconductance to increase with increasing damage levels until optimal fluence is achieved. Based on the density functional theory (DFT) with the GGA + U (GGA = generalized gradient approximation) method, the defective models associated with the different electronic structures, density of states, formation energy, and the nature of the chemical bonding are established. The narrowing of the bandgap observed experimentally and the enhancement of carrier concentration originating from the internal electron defect states are qualitatively verified, therefore laying the foundation for designing future nanoscale photoelectronic devices and microelectronics applications.

show abstract

Tailoring the Electronic Structures and Spectral Properties of ZnO with Irradiation Defects Generated Under Intense Electronic Excitation: A Combined Experimental and DFT Approach

Han,

Li,

Pan

et al. 2024

Adv Funct Materials

View full text Add to dashboard Cite

show abstract

Advancing mid-infrared microdisk laser emission with Tm:YAG

Wang,

Li,

Wang

et al. 2024

Sci. China Phys. Mech. Astron.

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Underlying mechanism of structural transformation between GaSb and GaAs response to intense electronic excitation

Han,

Pan,

Zhu

et al. 2024

Materials & Design

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Structural Damage and Recrystallization Response of Garnet Crystals to Intense Electronic Excitation

Cited by 6 publications

References 77 publications

Tailoring the Electronic Structures and Spectral Properties of ZnO with Irradiation Defects Generated Under Intense Electronic Excitation: A Combined Experimental and DFT Approach

Tailoring the Electronic Structures and Spectral Properties of ZnO with Irradiation Defects Generated Under Intense Electronic Excitation: A Combined Experimental and DFT Approach

Advancing mid-infrared microdisk laser emission with Tm:YAG

Underlying mechanism of structural transformation between GaSb and GaAs response to intense electronic excitation

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