C. Pietzka scite author profile

It was shown that a strong anodic oxidation of 100-oriented diamond induces the electronic surface states, which pin the surface Fermi level at about 3.6 eV above the valence-band maximum. The characteristics of the electronic surface barrier were evaluated from the analysis of boron-doped diamond electrodes and correlated with the four-point probe measurements of an oxidized diamond resistor with a boron delta-doped channel. The same evaluation procedure applied to the case of a wet chemical oxidation yielded a surface barrier of 1.9 eV, which is consistent with the data in the literature. The characteristics of the 3.6 eV barrier by the anodic oxidation remained stable after subsequent chemical treatments even at elevated temperatures, and were also not degraded in air for a long time. The x-ray photoemission spectroscopy study showed that the anodic oxidation generates complex oxygen functionalities, like polycarbonate groups, and also C-O-C bridging bond structures with possible contribution of an additional chemisorbed layer.

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Piezoelectric GaN sensor structures

Zimmermann

Neuburger

Benkart

et al. 2006

IEEE Electron Device Lett.

117

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Surface structure and surface barrier characteristics of boron-doped diamond in electrolytes after CF4 plasma treatment in RF-barrel reactor

Denisenko

Romanyuk

Pietzka

et al. 2010

Diamond and Related Materials

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Electronic surface barrier properties of boron-doped diamond oxidized by plasma treatment

Pietzka¹,

Denisenko²,

Romanyuk³

et al. 2010

Diamond and Related Materials

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Transport behaviour of boron delta‐doped diamond

Scharpf

Denisenko

Pakes

et al. 2013

Physica Status Solidi (a)

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The electrical transport properties of two-dimensional (2D) borondoped delta layers were investigated by a comprehensive analysis of physical, electrochemical and microscopic methods. The boron concentration profile was determined physically by elastic recoil detection (ERD) and compared to the doping (acceptor) profile extracted from capacitance-voltage (CV) measurements, giving a boron concentration of 2-4 Â 10 13 cm À2 . Corresponding field effect transistor (FET) characteristics, based on the boron-doped delta channel concept, measured in electrolyte, show good modulation behaviour but field effect mobilities in the range of 10 À2 -10 À1 cm 2 V À1 s À1 that are far below expected values. High-resolution transmission electron microscopy (HR-TEM) analysis was employed to shed new light on the transport behaviour of boron-doped delta layers, revealing an inhomogeneous and interrupted morphology. Based on this finding, a hypothesis is proposed, modelling the delta layer transport behaviour via hopping and tunnelling processes between boron clusters.

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C. Pietzka

The electronic surface barrier of boron-doped diamond by anodic oxidation

Piezoelectric GaN sensor structures

Surface structure and surface barrier characteristics of boron-doped diamond in electrolytes after CF4 plasma treatment in RF-barrel reactor

Electronic surface barrier properties of boron-doped diamond oxidized by plasma treatment

Transport behaviour of boron delta‐doped diamond

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