A. J. Tavendale scite author profile

Field drift of the hydrogen-related, acceptor-neutralizing defect has been detected in reverse-biased Schottky barrier and junction diodes made from plasma-hydrogenated, p-type, boron-doped silicon. Significant differences in diffusion depths and drift rates between hydrogenated and deuterated silicon indicate that the mobile neutralizing species is possibly uncomplexed monoatomic hydrogen with a donor level above the mid band gap. Hydrogen-boron pairing explains qualitatively the boron acceptor concentration profiles in hydrogen-neutralized, p-type silicon.

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The electrical properties of deep copper- and nickel-related centers in silicon

Pearton¹,

Tavendale²

1983

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Hydrogen passivation of gold-related deep levels in silicon

Pearton¹,

Tavendale²

1982

Phys. Rev. B

117

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Hydrogen injection and neutralization of boron acceptors in silicon boiled in water

Tavendale¹,

Williams²,

Pearton

1986

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A mirage study of CdSe colloidal quantum dot films, Urbach tail, and surface states J. Chem. Phys. 137, 154704 (2012) Optical transport through finite superlattice modulated with three-component quasiperiodic defect J. Appl. Phys. 112, 043524 (2012) On the origin of the 265nm absorption band in AlN bulk crystals Appl. Phys. Lett. 100, 191914 (2012) Apparent Raman spectral shifts from nano-structured surfaces Appl. Phys. Lett. 100, 173105 (2012) Epitaxial growth of thin films and nanodots of ZnO on Si(111) by pulsed laser deposition

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A. J. Tavendale

Deep level, quenched-in defects in silicon doped with gold, silver, iron, copper or nickel

Field drift of the hydrogen-related, acceptor-neutralizing defect in diodes from hydrogenated silicon

The electrical properties of deep copper- and nickel-related centers in silicon

Hydrogen passivation of gold-related deep levels in silicon

Hydrogen injection and neutralization of boron acceptors in silicon boiled in water

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