M. Barbé scite author profile

M. Barbé

3Publications

105Citation Statements Received

0Citation Statements Given

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Affiliations

Group of Study of Condensed Matter, Laboratory of Solid State Physics, Laboratoire de Cristallographie et Sciences des Matériaux

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Shallow donors with high n-type electrical conductivity in homoepitaxial deuterated boron-doped diamond layers

et al. 2003

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Diamond is a unique semiconductor for the fabrication of electronic and opto-electronic devices because of its exceptional physical and chemical properties. However, a serious obstacle to the realization of diamond-based devices is the lack of n-type diamond with satisfactory electrical properties. Here we show that high-conductivity n-type diamond can be achieved by deuteration of particularly selected homo-epitaxially grown (100) boron-doped diamond layers. Deuterium diffusion through the entire boron-doped layer leads to the passivation of the boron acceptors and to the conversion from highly p-type to n-type conductivity due to the formation of shallow donors with ionization energy of 0.23 eV. Electrical conductivities as high as 2omega(-1) x cm(-1) with electron mobilities of the order of a few hundred cm2 x V(-1) x s(-1) are measured at 300 K for samples with electron concentrations of several 10(16) x cm(-3). The formation and break-up of deuterium-related complexes, due to some excess deuterium in the deuterated layer, seem to be responsible for the reversible p- to n-type conversion. To the best of our knowledge, this is the first time such an effect has been observed in an elemental semiconductor.

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Some fundamentals of the vapor and solution growth of ZnSe and ZnO

Triboulet¹,

Ntep²,

Barbé³

et al. 1999

Journal of Crystal Growth

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Critical thickness in heteroepitaxial growth of zinc-blende semiconductor compounds

Cohen‐Solal

Bailly

Barbé

1994

Journal of Crystal Growth

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M. Barbé

Shallow donors with high n-type electrical conductivity in homoepitaxial deuterated boron-doped diamond layers

Some fundamentals of the vapor and solution growth of ZnSe and ZnO

Critical thickness in heteroepitaxial growth of zinc-blende semiconductor compounds

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