A three-dimensional kinetic Monte Carlo model has been developed to simulate the chemical vapor deposition of a diamond (100) surface under conditions used to grow single-crystal diamond (SCD), microcrystalline diamond (MCD), nanocrystalline diamond (NCD), and ultrananocrystalline diamond (UNCD) films. The model includes adsorption of CHx (x = 0, 3) species, insertion of CHy (y = 0-2) into surface dimer bonds, etching/desorption of both transient adsorbed species and lattice sidewalls, lattice incorporation, and surface migration but not defect formation or renucleation processes. A value of ∼200 kJ mol(-1) for the activation Gibbs energy, ΔG(‡) etch, for etching an adsorbed CHx species reproduces the experimental growth rate accurately. SC...
This paper presents a theoretical study on the initial stage of diamond nucleation during chemical v...
A simplified surface reaction mechanism is presented for the CVD of diamond thin films. The mechanis...
We present the results of the first molecular dynamics simulations under realistic conditions pertin...
Diamond's superb mechanical, thermal, optical, and electronic properties are ideally suited for use ...
We present a method for simulating the chemical vapor deposition (CVD) of thin films. The model is b...
Chemical vapor deposition (CVD) of (111)-oriented diamond film is modeled using a kinetic Monte Carl...
Chemical vapor deposition of polycrystalline diamond films is studied by combining an atomic-scale k...
The incorporation of vacancies, H atoms, and sp{sup 2} bond defects into single-crystal homoepitaxia...
Current theories of CVD growth on (100) diamond are unable to account for the numerous experimental ...
The evolution of grain size, grain-size distribution, morphological and crystallographic texture, su...
The diamond chemical vapor deposition (CVD) process has been investigated theoretically and the morp...
Three models for diamond growth process by the chemical vapor deposition of methane are proposed. Th...
Chemical vapor deposition of the (111)- and (100)-oriented single-crystalline diamond films is studi...
This report presents a simplified surface reaction mechanism for the Chemical Vapor Deposition (CVD)...
Current theories of CVD growth on (100) diamond are unable to account for the numerous experimental ...
This paper presents a theoretical study on the initial stage of diamond nucleation during chemical v...
A simplified surface reaction mechanism is presented for the CVD of diamond thin films. The mechanis...
We present the results of the first molecular dynamics simulations under realistic conditions pertin...
Diamond's superb mechanical, thermal, optical, and electronic properties are ideally suited for use ...
We present a method for simulating the chemical vapor deposition (CVD) of thin films. The model is b...
Chemical vapor deposition (CVD) of (111)-oriented diamond film is modeled using a kinetic Monte Carl...
Chemical vapor deposition of polycrystalline diamond films is studied by combining an atomic-scale k...
The incorporation of vacancies, H atoms, and sp{sup 2} bond defects into single-crystal homoepitaxia...
Current theories of CVD growth on (100) diamond are unable to account for the numerous experimental ...
The evolution of grain size, grain-size distribution, morphological and crystallographic texture, su...
The diamond chemical vapor deposition (CVD) process has been investigated theoretically and the morp...
Three models for diamond growth process by the chemical vapor deposition of methane are proposed. Th...
Chemical vapor deposition of the (111)- and (100)-oriented single-crystalline diamond films is studi...
This report presents a simplified surface reaction mechanism for the Chemical Vapor Deposition (CVD)...
Current theories of CVD growth on (100) diamond are unable to account for the numerous experimental ...
This paper presents a theoretical study on the initial stage of diamond nucleation during chemical v...
A simplified surface reaction mechanism is presented for the CVD of diamond thin films. The mechanis...
We present the results of the first molecular dynamics simulations under realistic conditions pertin...