Oliver Williams
Oliver Williams
Cardiff School of Physics and Astronomy, Cardiff University
Verified email at - Homepage
Cited by
Cited by
Nanocrystalline diamond
OA Williams
Diamond and Related Materials 20 (5-6), 621-640, 2011
Size-dependent reactivity of diamond nanoparticles
OA Williams, J Hees, C Dieker, W Jäger, L Kirste, CE Nebel
ACS nano 4 (8), 4824-4830, 2010
Enhanced diamond nucleation on monodispersed nanocrystalline diamond
OA Williams, O Douhéret, M Daenen, K Haenen, E Ōsawa, M Takahashi
Chemical Physics Letters 445 (4-6), 255-258, 2007
Growth, electronic properties and applications of nanodiamond
OA Williams, M Nesladek, M Daenen, S Michaelson, A Hoffman, E Osawa, ...
Diamond and Related Materials 17 (7-10), 1080-1088, 2008
Electronic and optical properties of boron-doped nanocrystalline diamond films
W Gajewski, P Achatz, OA Williams, K Haenen, E Bustarret, M Stutzmann, ...
Physical Review B 79 (4), 045206, 2009
Comparison of the growth and properties of ultrananocrystalline diamond and nanocrystalline diamond
OA Williams, M Daenen, J D'Haen, K Haenen, J Maes, VV Moshchalkov, ...
Diamond and related materials 15 (4-8), 654-658, 2006
Growth and properties of nanocrystalline diamond films
OA Williams, M Nesládek
physica status solidi (a) 203 (13), 3375-3386, 2006
N-type conductivity in ultrananocrystalline diamond films
OA Williams, S Curat, JE Gerbi, DM Gruen, RB Jackman
Applied Physics Letters 85 (10), 1680-1682, 2004
Chemical mechanical polishing of thin film diamond
ELH Thomas, GW Nelson, S Mandal, JS Foord, OA Williams
Carbon 68, 473-479, 2014
Ordered growth of neurons on diamond
CG Specht, OA Williams, RB Jackman, R Schoepfer
Biomaterials 25 (18), 4073-4078, 2004
Electrostatic self-assembly of diamond nanoparticles
J Hees, A Kriele, OA Williams
Chemical Physics Letters 509 (1-3), 12-15, 2011
Optical properties of nanocrystalline diamond thin films
P Achatz, JA Garrido, M Stutzmann, OA Williams, DM Gruen, A Kromka, ...
Applied Physics Letters 88 (10), 2006
pH sensors based on hydrogenated diamond surfaces
JA Garrido, A Härtl, S Kuch, M Stutzmann, OA Williams, RB Jackmann
Applied Physics Letters 86 (7), 2005
High precision pressure sensors based on SAW devices in the GHz range
JG Rodríguez-Madrid, GF Iriarte, OA Williams, F Calle
Sensors and Actuators A: Physical 189, 364-369, 2013
High Young’s modulus in ultra thin nanocrystalline diamond
OA Williams, A Kriele, J Hees, M Wolfer, W Müller-Sebert, CE Nebel
Chemical Physics Letters 495 (1-3), 84-89, 2010
Positive zeta potential of nanodiamonds
L Gines, S Mandal, CL Cheng, M Sow, OA Williams
Nanoscale 9 (34), 12549-12555, 2017
Effect of nitrogen on the electronic properties of ultrananocrystalline diamond thin films grown on quartz and diamond substrates
P Achatz, OA Williams, P Bruno, DM Gruen, JA Garrido, M Stutzmann
Physical Review B 74 (15), 155429, 2006
Super-high-frequency SAW resonators on AlN/diamond
JG Rodriguez-Madrid, GF Iriarte, J Pedros, OA Williams, D Brink, F Calle
IEEE Electron device letters 33 (4), 495-497, 2012
Hydrogen-induced transport properties of holes in diamond surface layers
CE Nebel, C Sauerer, F Ertl, M Stutzmann, CFO Graeff, P Bergonzo, ...
Applied physics letters 79 (27), 4541-4543, 2001
Battery‐like supercapacitors from vertically aligned carbon nanofiber coated diamond: design and demonstrator
S Yu, N Yang, M Vogel, S Mandal, OA Williams, S Jiang, H Schönherr, ...
Advanced Energy Materials 8 (12), 1702947, 2018
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