Paper

Dalton Trans., 2004, 3085 - 3092, DOI: 10.1039/b402740j

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Phosphorus carbides: theory and experiment

F. Claeyssens, G. M. Fuge, N. L. Allan, P. W. May and M. N. R. Ashfold

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The recent finding that radio frequency plasma activation of CH₄/PH₃ gas mixtures can yield films with P C ratios 3 has served to trigger further research into new phosphorus carbide materials. Theoretical and experimental results relating to periodic and amorphous materials, respectively, are presented here: (i) The electronic structure and stability of different crystalline phosphorus carbide P_xC_y phases have been studied using first-principles density-functional theory. Calculations have been carried out for P₄C_3+8n(n= 0–4), PC, and PC₃ and the most likely periodic structures examined in detail. Particular attention is paid to the composition PC₃, for which there are several possibilities of similar energy. (ii) Recent experimental efforts have involved use of pulsed laser ablation methods to produce hydrogen-free phosphorus carbide thin films. Mechanically hard, electrically conducting diamond like carbon films containing 0–26 at.% P have been deposited on both Si and quartz substrates by 193 nm PLA of graphite/phosphorus targets (containing varying percentages of phosphorus), at a range of substrate temperatures (T_sub= 298–700 K), in vacuum, and analysed via laser Raman and X-ray photoelectron spectroscopy.

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