Mike Ashfold
Mike Ashfold
Professor of Physical Chemistry, University of Bristol
Verified email at bristol.ac.uk
Cited by
Cited by
Growth of aligned ZnO nanorod arrays by catalyst-free pulsed laser deposition methods
Y Sun, GM Fuge, MNR Ashfold
Chemical Physics Letters 396 (1-3), 21-26, 2004
Cavity ring-down spectroscopy
MD Wheeler, SM Newman, AJ Orr-Ewing, MNR Ashfold
Journal of the Chemical Society, Faraday Transactions 94 (3), 337-351, 1998
Pulsed laser ablation and deposition of thin films
MNR Ashfold, F Claeyssens, GM Fuge, SJ Henley
Chemical Society Reviews 33 (1), 23-31, 2004
Synthesis of aligned arrays of ultrathin ZnO nanotubes on a Si wafer coated with a thin ZnO film
Y Sun, GM Fuge, NA Fox, DJ Riley, MNR Ashfold
Advanced materials 17 (20), 2477-2481, 2005
Growth of ZnO thin films—experiment and theory
F Claeyssens, CL Freeman, NL Allan, Y Sun, MNR Ashfold, JH Harding
Journal of Materials Chemistry 15 (1), 139-148, 2005
The role of πσ* excited states in the photodissociation of heteroaromatic molecules
MNR Ashfold, B Cronin, AL Devine, RN Dixon, MGD Nix
Science 312 (5780), 1637-1640, 2006
Mechanism of ZnO nanotube growth by hydrothermal methods on ZnO film-coated Si substrates
Y Sun, DJ Riley, MNR Ashfold
The Journal of Physical Chemistry B 110 (31), 15186-15192, 2006
Imaging the dynamics of gas phase reactions
MNR Ashfold, NH Nahler, AJ Orr-Ewing, OPJ Vieuxmaire, RL Toomes, ...
Physical Chemistry Chemical Physics 8 (1), 26-53, 2006
πσ* excited states in molecular photochemistry
MNR Ashfold, GA King, D Murdock, MGD Nix, TAA Oliver, AG Sage
Physical Chemistry Chemical Physics 12 (6), 1218-1238, 2010
Synthesis and photoluminescence of ultra-thin ZnO nanowire/nanotube arrays formed by hydrothermal growth
Y Sun, NG Ndifor-Angwafor, DJ Riley, MNR Ashfold
Chemical Physics Letters 431 (4-6), 352-357, 2006
Thin film diamond by chemical vapour deposition methods
MNR Ashfold, PW May, CA Rego, NM Everitt
Chemical Society Reviews 23 (1), 21-30, 1994
Photodissociation dynamics of H2S at 121.6 nm and a determination of the potential energy function of SH(A2Σ+)
L Schnieder, W Meier, KH Welge, MNR Ashfold, CM Western
The Journal of Chemical Physics 92 (12), 7027-7037, 1990
The kinetics of the hydrothermal growth of ZnO nanostructures
MNR Ashfold, RP Doherty, NG Ndifor-Angwafor, DJ Riley, Y Sun
Thin Solid Films 515 (24), 8679-8683, 2007
Understanding the chemical vapor deposition of diamond: recent progress
JE Butler, YA Mankelevich, A Cheesman, J Ma, MNR Ashfold
Journal of Physics: Condensed Matter 21 (36), 364201, 2009
High resolution photofragment translational spectroscopy studies of the near ultraviolet photolysis of phenol
MGD Nix, AL Devine, B Cronin, RN Dixon, MNR Ashfold
The Journal of chemical physics 125 (13), 133318, 2006
High resolution photofragment translational spectroscopy studies of the near ultraviolet photolysis of pyrrole
B Cronin, MGD Nix, RH Qadiri, MNR Ashfold
Physical Chemistry Chemical Physics 6 (21), 5031-5041, 2004
The growth of transparent conducting ZnO films by pulsed laser ablation
SJ Henley, MNR Ashfold, D Cherns
Surface and coatings Technology 177, 271-276, 2004
Multiphoton spectroscopy of molecular species
MNR Ashfold, JD Howe
Annual Review of Physical Chemistry 45 (1), 57-82, 1994
State selective photodissociation dynamics of à state ammonia. II
J Biesner, L Schnieder, G Ahlers, X Xie, KH Welge, MNR Ashfold, ...
The Journal of chemical physics 91 (5), 2901-2911, 1989
Primary product channels in the photodissociation of methane at 121.6 nm
DH Mordaunt, IR Lambert, GP Morley, MNR Ashfold, RN Dixon, ...
The Journal of chemical physics 98 (3), 2054-2065, 1993
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