Growth and device processing of hexagonal boron nitride epilayers for thermal neutron and deep ultraviolet detectors

Abstract

Solid-state neutron detectors with high performance are highly sought after for the detection of fissile materials. However, direct-conversion neutron detectors based on semiconductors with a measureable efficiency have not been realized. We report here the first successful demonstration of a direct-conversion semiconductor neutron detector with an overall detection efficiency for thermal neutrons of 4% and a charge collection efficiency as high as 83%. The detector is based on a 2.7 μm thick 10B-enriched hexagonal boron nitride (h-BN) epitaxial layer. The results represent a significant step towards the realization of practical neutron detectors based on h-BN epilayers. Neutron detectors based on h-BN are expected to possess all the advantages of semiconductor devices including wafer-scale processing, compact size, light weight, and ability to integrate with other functional devices.

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© 2016 Author(s). cc-by

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Doan, T.C., Li, J., Lin, J.Y., & Jiang, H.X.. 2016. Growth and device processing of hexagonal boron nitride epilayers for thermal neutron and deep ultraviolet detectors. AIP Advances, 6(7). https://doi.org/10.1063/1.4959595

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