Paul W. May
Paul W. May
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Cited by
Cited by
Diamond thin films: a 21st-century material
PW May
Philosophical Transactions of the Royal Society of London. Series A …, 2000
XPS and laser Raman analysis of hydrogenated amorphous carbon films
J Filik, PW May, SRJ Pearce, RK Wild, KR Hallam
Diamond and related Materials 12 (3-7), 974-978, 2003
Raman and conductivity studies of boron-doped microcrystalline diamond, facetted nanocrystalline diamond and cauliflower diamond films
PW May, WJ Ludlow, M Hannaway, PJ Heard, JA Smith, KN Rosser
Diamond and Related Materials 17 (2), 105-117, 2008
Thin film diamond by chemical vapour deposition methods
MNR Ashfold, PW May, CA Rego, NM Everitt
Chemical Society Reviews 23 (1), 21-30, 1994
CVD diamond: a new technology for the future?
PW May
Endeavour 19 (3), 101-106, 1995
Microcrystalline, nanocrystalline, and ultrananocrystalline diamond chemical vapor deposition: Experiment and modeling of the factors controlling growth rate, nucleation, and …
PW May, MNR Ashfold, YA Mankelevich
Journal of Applied Physics 101 (5), 053115, 2007
Isolation and Structural Proof of the Large Diamond Molecule, Cyclohexamantane (C26H30)
JEP Dahl, JM Moldowan, TM Peakman, JC Clardy, E Lobkovsky, ...
Angewandte Chemie 115 (18), 2086-2090, 2003
Porous boron-doped diamond/carbon nanotube electrodes
H Zanin, PW May, DJ Fermin, D Plana, SMC Vieira, WI Milne, EJ Corat
ACS applied materials & interfaces 6 (2), 990-995, 2014
Production of nanocrystalline diamond by laser ablation at the solid/liquid interface
SRJ Pearce, SJ Henley, F Claeyssens, PW May, KR Hallam, JA Smith, ...
Diamond and Related Materials 13 (4-8), 661-665, 2004
Growth of diamond nanocrystals by pulsed laser ablation of graphite in liquid
L Yang, PW May, L Yin, JA Smith, KN Rosser
Diamond and Related Materials 16 (4-7), 725-729, 2007
From ultrananocrystalline diamond to single crystal diamond growth in hot filament and microwave plasma-enhanced CVD reactors: a unified model for growth rates and grain sizes
PW May, YA Mankelevich
The Journal of Physical Chemistry C 112 (32), 12432-12441, 2008
Raman spectroscopy of nanocrystalline diamond: An ab initio approach
J Filik, JN Harvey, NL Allan, PW May, JEP Dahl, S Liu, RMK Carlson
Physical Review B 74 (3), 035423, 2006
Reevaluation of the mechanism for ultrananocrystalline diamond deposition from gas mixtures
PW May, JN Harvey, JA Smith, YA Mankelevich
Journal of applied physics 99 (10), 104907, 2006
Graphite-to-diamond transformation induced by ultrasound cavitation
AK Khachatryan, SG Aloyan, PW May, R Sargsyan, VA Khachatryan, ...
Diamond and Related Materials 17 (6), 931-936, 2008
The new diamond age?
PW May
Science 319 (5869), 1490-1491, 2008
Use of different excitation wavelengths for the analysis of CVD diamond by laser Raman spectroscopy
SM Leeds, TJ Davis, PW May, CDO Pickard, MNR Ashfold
Diamond and Related Materials 7 (2-5), 233-237, 1998
Deposition of NCD films using hot filament CVD and Ar/CH4/H2 gas mixtures
PW May, JA Smith, YA Mankelevich
Diamond and related materials 15 (2-3), 345-352, 2006
Unravelling aspects of the gas phase chemistry involved in diamond chemical vapour deposition
MNR Ashfold, PW May, JR Petherbridge, KN Rosser, JA Smith, ...
Physical chemistry chemical physics 3 (17), 3471-3485, 2001
New insights into the mechanism of CVD diamond growth: Single crystal diamond in MW PECVD reactors
YA Mankelevich, PW May
Diamond and Related Materials 17 (7-10), 1021-1028, 2008
Diamond-coated ‘black silicon’as a promising material for high-surface-area electrochemical electrodes and antibacterial surfaces
PW May, M Clegg, TA Silva, H Zanin, O Fatibello-Filho, V Celorrio, ...
Journal of materials chemistry B 4 (34), 5737-5746, 2016
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