David M. E. Davies scite author profile

David M. E. Davies

2Publications

67Citation Statements Received

74Citation Statements Given

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University of Bristol, GlaxoSmithKline (United States), University of Pennsylvania

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Experimental and Modeling Studies of B Atom Number Density Distributions in Hot Filament Activated B₂H₆/H₂ and B₂H₆/CH₄/H₂ Gas Mixtures

et al. 2005

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Experimental and modeling studies of the gas-phase chemistry occurring in dilute, hot filament (HF) activated B2H6/H2 and B2H6/CH4/H2 gas mixtures are reported. Spatially resolved relative number densities of B (and H) atoms have been measured by resonance enhanced multiphoton ionization methods, as a function of process conditions (e.g. the HF material and its temperature, the B2H6/H2 mixing ratio, and the presence (or not) of added CH4). Three-dimensional modeling of the H/B chemistry prevailing in such HF activated gas mixtures using a simplified representation of the gas phase chemistry succeeds in reproducing all of the experimentally observed trends, and in illustrating the key role of the "H-shifting" reactions BHx + H <= => BHx-1 + H2 (x = 1-3) in enabling rapid interconversion between the various BHx (x = 0-3) species. CH4 addition, at partial pressures appropriate for growth of boron-doped diamond by chemical vapor deposition methods, leads to approximately 30% reduction in the measured B atom signal near the HF. The modeling suggests that this is mainly due to concomitant H atom depletion near the HF, but it also allows us a first assessment of the possible contributions from B/C coupling reactions upon CH4 addition to HF activated B2H6/H2 gas mixtures.

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Reaction Optimization and Mechanism in Maleimide [5 + 2] Photocycloaddition: A Dual Approach Using Tunable UV Lasers and Time-Dependent DFT

et al. 2007

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An in-depth study of the intramolecular [5 + 2] photocycloaddition of maleimides using tunable UV lasers has demonstrated that the peak in quantum yield and rate both occur at wavelengths some 50 nm red shifted from the maxima observed in the UV spectra. A detailed explanation for these findings using time-dependent DFT calculations is presented, and the implications for a previously adopted mechanism are discussed.

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David M. E. Davies

Experimental and Modeling Studies of B Atom Number Density Distributions in Hot Filament Activated B₂H₆/H₂ and B₂H₆/CH₄/H₂ Gas Mixtures

Reaction Optimization and Mechanism in Maleimide [5 + 2] Photocycloaddition: A Dual Approach Using Tunable UV Lasers and Time-Dependent DFT

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David M. E. Davies

Experimental and Modeling Studies of B Atom Number Density Distributions in Hot Filament Activated B2H6/H2 and B2H6/CH4/H2 Gas Mixtures

Reaction Optimization and Mechanism in Maleimide [5 + 2] Photocycloaddition: A Dual Approach Using Tunable UV Lasers and Time-Dependent DFT

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Experimental and Modeling Studies of B Atom Number Density Distributions in Hot Filament Activated B₂H₆/H₂ and B₂H₆/CH₄/H₂ Gas Mixtures