Mehdi Naamoun scite author profile

Mehdi Naamoun

2Publications

77Citation Statements Received

34Citation Statements Given

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Affiliations

École Polytechnique Fédérale de Lausanne, Université Sorbonne Paris Nord, French National Centre for Scientific Research

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Etch‐pit formation mechanism induced on HPHT and CVD diamond single crystals by H₂/O₂ plasma etching treatment

Naamoun

Tallaire

Silva

et al. 2012

Physica Status Solidi (a)

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H2/O2 plasma treatments offer advantages over other etching processes of diamond as a technique to prepare the substrate surface prior to chemical vapor deposition (CVD) diamond growth. It allows removing defects induced on the surface by polishing, thus leading to an improved morphology and limiting the stress within the grown crystal. Moreover, they present the advantage to be performed in situ just before the CVD diamond growth. In this work, H2/O2 plasma treatments were performed so that threading dislocations and other defects are etched preferentially, thus leaving typical etch‐pits. The defect densities in several high pressure high temperature (HPHT) and CVD diamond crystals were then quantified and compared; in particular defects originating from polishing could be distinguished from extended defects inside the crystal. Furthermore, the defect density was found to be of the order of 105/cm2 for HPHT crystals, which was approximately one order of magnitude lower than that measured in low cost commercial CVD monocrystals. The use of laser microscopy also allowed observing the morphology, size and depth of different etch‐pits of 〈001〉‐oriented and misoriented crystals and their evolution with etching time in order to get a better understanding of defect density and formation during CVD growth.

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Improvement of dislocation density in thick CVD single crystal diamond films by coupling H₂/O₂ plasma etching and chemo‐mechanical or ICP treatment of HPHT substrates

Achard

Tallaire

Mille

et al. 2014

Physica Status Solidi (a)

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Phone: þ33 1 4940 3426, Fax: þ33 1 4940 3414 H 2 /O 2 plasma treatments offer advantages over other etching processes of diamond as a technique to prepare the substrate's surface prior to homoepitaxial CVD diamond growth particularly in the case of thick films. It allows removing surface defects induced by polishing, thus leading to an improved morphology and limiting the stress within the grown crystal. Nevertheless, this treatment induces surface roughness leading to dislocation formation when CVD growth is initiated. In this paper we combined H 2 /O 2 plasma etching with smoother surface treatment such as RIE-ICP etching or Chemo-Mechanical Polishing and we showed a significant reduction in dislocation density of the thick CVD epitaxial layers.

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Mehdi Naamoun

Etch‐pit formation mechanism induced on HPHT and CVD diamond single crystals by H₂/O₂ plasma etching treatment

Improvement of dislocation density in thick CVD single crystal diamond films by coupling H₂/O₂ plasma etching and chemo‐mechanical or ICP treatment of HPHT substrates

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Mehdi Naamoun

Etch‐pit formation mechanism induced on HPHT and CVD diamond single crystals by H2/O2 plasma etching treatment

Improvement of dislocation density in thick CVD single crystal diamond films by coupling H2/O2 plasma etching and chemo‐mechanical or ICP treatment of HPHT substrates

Contact Info

Product

Resources

About

Etch‐pit formation mechanism induced on HPHT and CVD diamond single crystals by H₂/O₂ plasma etching treatment

Improvement of dislocation density in thick CVD single crystal diamond films by coupling H₂/O₂ plasma etching and chemo‐mechanical or ICP treatment of HPHT substrates