Interaction between hydrogen and gallium vacancies in β-Ga2O3

Wei, Yidan; Li, Xingji; Yang, Jianqun; Liu, Chaoming; Zhao, Jinyu; Liu, Yong; Dong, Shuangshi

doi:10.1038/s41598-018-28461-3

Cited by 36 publications

(26 citation statements)

References 28 publications

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“…[35][36][37][38][39] Hydrogen-gallium vacancy complexes (i.e., V Ga -H, V Ga -2H) might also play a role since irradiation can affect the degree of H saturation of V Ga with different charge state transitions, (0/−1), (−1/−2), (−2/−3), etc., which has also been reported for proton-implanted β-Ga 2 O 3 with the V Ga -2H complex formation, 44 and possibly cause Frenkel pair generation. 39,45 Regarding the E C −4.48 eV state that remained unaffected after irradiation for both doses, this energy level is close to those that have been predicted for vacancies; 38,46 however, Note that the concentrations of the DLOS traps before and after irradiation are likely even greater (but at same ratio) than shown here due to their small optical cross sections causing an underestimation of these values.…”

Section: Article Scitationorg/journal/apmsupporting

confidence: 86%

Impact of deep level defects induced by high energy neutron radiation in β-Ga2O3

et al. 2018

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Section: Article Scitationorg/journal/apmsupporting

confidence: 86%

Impact of deep level defects induced by high energy neutron radiation in β-Ga2O3

et al. 2018

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“…6) and the H  formation was accelerated by DCP. Conductivity of Ga-or In-based alloys is dependent on the extent of Hdoping 28,35,36 . Since H  generation is proportional to the fraction of ethylene (E) in PEVA, the conductivity increased as E (red line in Fig.…”

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confidence: 99%

Hydrogen-doped viscoplastic liquid metal microparticles for stretchable printed metal lines

et al. 2021

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Conductive and stretchable electrodes that can be printed directly on a stretchable substrate have drawn intensive attention for wearable electronics and electronic skins. Printable inks containing liquid metal (LM) are strong candidates for these applications, but the insulating oxide skin forming around LM particles limits their conductivity. This study reveals that hydrogen doping (H-doping) introduced by ultrasonication in the presence of aliphatic polymers makes the oxide skin highly conductive and deformable. X-ray photoelectron spectroscopy and atom probe tomography confirms hydrogen doping, and first-principles calculations are used to rationalize the obtained conductivity. Printed circuit lines show metallic conductivity (25,000 S/cm), excellent electromechanical decoupling at 500% uniaxial stretching, mechanical resistance to scratches, and long-term stability in wide ranges of temperature and humidity. The self-passivation of the printed lines allows direct printing of 3D circuit lines and double-layer planar coils that are used as stretchable inductive strain sensors.Stretchable electronic devices have received widespread attention for potential uses in healthcare monitoring 1-3 , electronic skins 4,5 , and wearable haptic devices 6,7 . One of the key technological issues in stretchable electronics is the fabrication of stretchable circuit lines, for which several characteristics are requested simultaneously; metallic conductivity, negligible resistance changes under deformations, electrical stability in harsh environments, printing of complicated circuit designs, passivation 8 , and good adhesion to elastomeric substrates 9 . Serpentine and buckled metal interconnections have achieved a few of the above requests such as metallic conductivity, small resistance changes, some degree of deformability, and environmental stability 10 . Other progress has been with conductive elastomer composites with respect to high

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“…They support these conclusions by using density functional theory (DFT) to calculate the binding energies of one, two, three, and four H atoms at the Ga(1) vacancy. These processes, if supported by subsequent results, could play significant roles in the understanding 2 and applications 3,4 of b-Ga 2 O 3 , as noted by Polyakov et al 5 However, the models of these defects and of the Ga(1) vacancy suggested by Islam et al 1 and earlier by Wei et al 6 involve an unshifted configuration of this defect and have not taken account of the remarkable spontaneous restructuring of the Ga(1) defect that has been found to take place, both with and without trapped H. Specifically, the Ga(1) vacancy is metastable against lower-energy shifts into two inequivalent configurations (Fig. 1) in which a neighboring Ga(1) moves to an interstitial position halfway between its original site and the site of the vacancy.…”

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confidence: 60%

“…However, we find that each of these three-and four-H unshifted-vacancy configurations would have at least one vibrational mode with a strong [010] component, and there is no experimental evidence [15][16][17] for such modes. Thus, the absence of any defects with H atoms trapped at an unshifted Ga(1) vacancy with the structures proposed by Islam et al 1 or Wei et al 6 in spite of their low energy appears to be a puzzle.…”

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confidence: 87%

“…The absence of experimental evidence for multiple hydrogens trapped at an unshifted Ga(1) vacancy means that physical conclusions 1,6 based on trapped hydrogens must be obtained from the actual, shifted, structures of these defects. While defects with three or four hydrogen atoms trapped at an unshifted Ga(1) vacancy may have lower energy than for defects with a shifted Ga(1) vacancy, the absence of pathways to reach these configurations by the sequential trapping of additional H atoms at temperatures for which these defects have been investigated can explain their absence in recent experiments.…”

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confidence: 99%

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Trapping of multiple H atoms at the Ga(1) vacancy in β -Ga2O3

Fowler

Stavola

Qin

et al. 2020

Applied Physics Letters

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Recent suggestions that hydrogen incorporation at the Ga(1) vacancy in b-Ga 2 O 3 may have an impact on its electronic properties have led us to extend our earlier work on these defects. While our previous work provides strong evidence for one, two, and perhaps three or four H trapped into the shifted vacancy configurations introduced by Varley and Kyrtsos, the apparent experimental absence of several H trapped in the unshifted configuration is puzzling. While a structure of two hydrogen atoms trapped in the unshifted configuration is not favored energetically, structures of three or four hydrogens in the unshifted configuration are favored. We suggest that these structures are absent because there are no available pathways for the system to reach them by sequentially trapped H and, therefore, that three-or four-hydrogen defects will occur only in the shifted vacancy configurations.

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Interaction between hydrogen and gallium vacancies in β-Ga2O3

Cited by 36 publications

References 28 publications

Impact of deep level defects induced by high energy neutron radiation in β-Ga2O3

Impact of deep level defects induced by high energy neutron radiation in β-Ga2O3

Hydrogen-doped viscoplastic liquid metal microparticles for stretchable printed metal lines

Trapping of multiple H atoms at the Ga(1) vacancy in β -Ga2O3

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