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Electronic passivation of silicon surfaces by thin films of atomic layer deposited gallium oxide

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Authors

Allen, T. G.
Cuevas, A.

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American Institute of Physics (AIP)

Abstract

This paper proposes the application of gallium oxide (Ga₂O₃) thin films to crystalline silicon solar cells. Effective passivation of n- and p-type crystalline silicon surfaces has been achieved by the application of very thin Ga₂O₃ films prepared by atomic layer deposition using trimethylgallium (TMGa) and ozone (O₃) as the reactants. Surface recombination velocities as low as 6.1 cm/s have been recorded with films less than 4.5 nm thick. A range of deposition parameters has been explored, with growth rates of approximately 0.2 Å/cycle providing optimum passivation. The thermal activation energy for passivation of the Si-Ga₂O₃ interface has been found to be approximately 0.5 eV. Depassivation of the interface was observed for prolonged annealing at increased temperatures. The activation energy for depassivation was measured to be 1.9 eV.

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Applied Physics Letters

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