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" Chemical manipulation of hydrogen induced high p-type and n-type conductivity in Ga2O3. "


Document Type : AL
Record Number : 899424
Doc. No : LA1cs8j1ww
Title & Author : Chemical manipulation of hydrogen induced high p-type and n-type conductivity in Ga2O3. [Article]\ Islam, Md MinhazulLiedke, Maciej OskarWinarski, DavidButterling, MaikWagner, AndreasHosemann, PeterWang, YongqiangUberuaga, BlasSelim, Farida A
Date : 2020
Title of Periodical : UC Berkeley
Abstract : Advancement of optoelectronic and high-power devices is tied to the development of wide band gap materials with excellent transport properties. However, bipolar doping (n-type and p-type doping) and realizing high carrier density while maintaining good mobility have been big challenges in wide band gap materials. Here P-type and n-type conductivity was introduced in β-Ga2O3, an ultra-wide band gap oxide, by controlling hydrogen incorporation in the lattice without further doping. Hydrogen induced a 9-order of magnitude increase of n-type conductivity with donor ionization energy of 20 meV and resistivity of 10-4 Ω.cm. The conductivity was switched to p-type with acceptor ionization energy of 42 meV by altering hydrogen incorporation in the lattice. Density functional theory calculations were used to examine hydrogen location in the Ga2O3 lattice and identified a new donor type as the source of this remarkable n-type conductivity. Positron annihilation spectroscopy measurements confirm this finding and the interpretation of the experimental results. This work illustrates a new approach that allows a tunable and reversible way of modifying the conductivity of semiconductors and it is expected to have profound implications on semiconductor field. At the same time, it demonstrates for the first time p-type and remarkable n-type conductivity in Ga2O3 which should usher in the development of Ga2O3 devices and advance optoelectronics and high-power devices.
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