DNA-modified nanocrystalline diamond thin-films as stable, biologically active substrates W Yang, O Auciello, JE Butler, W Cai, JA Carlisle, JE Gerbi, DM Gruen, ... Nature materials 1 (4), 253-257, 2002 | 1027 | 2002 |
Handbook of industrial diamonds and diamond films MA Prelas, G Popovici, LK Bigelow Routledge, 2018 | 543 | 2018 |
Standard electrochemical behavior of high-quality, boron-doped polycrystalline diamond thin-film electrodes MC Granger, M Witek, J Xu, J Wang, M Hupert, A Hanks, MD Koppang, ... Analytical chemistry 72 (16), 3793-3804, 2000 | 519 | 2000 |
The CVD of nanodiamond materials JE Butler, AV Sumant Chemical Vapor Deposition 14 (7‐8), 145-160, 2008 | 451 | 2008 |
Diamond chemical vapor deposition FG Celii, JE Butler Annual Review of Physical Chemistry 42 (1), 643-684, 1991 | 434 | 1991 |
Thin film diamond growth mechanisms JE Butler, RL Woodin Philosophical Transactions of the Royal Society of London. Series A …, 1993 | 408 | 1993 |
Elastic, mechanical, and thermal properties of nanocrystalline diamond films J Philip, P Hess, T Feygelson, JE Butler, S Chattopadhyay, KH Chen, ... Journal of Applied Physics 93 (4), 2164-2171, 2003 | 370 | 2003 |
Photochemical functionalization of diamond films T Strother, T Knickerbocker, JN Russell, JE Butler, LM Smith, RJ Hamers Langmuir 18 (4), 968-971, 2002 | 327 | 2002 |
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 | 309 | 2009 |
Infrared detection of gaseous species during the filament‐assisted growth of diamond FG Celii, PE Pehrsson, HT Wang, JE Butler Applied Physics Letters 52 (24), 2043-2045, 1988 | 305 | 1988 |
1.51-GHz nanocrystalline diamond micromechanical disk resonator with material-mismatched isolating support J Wang, JE Butler, T Feygelson, CTC Nguyen 17th IEEE International Conference on Micro Electro Mechanical Systems …, 2004 | 292 | 2004 |
Hydrogen atom detection in the filament‐assisted diamond deposition environment FG Celii, JE Butler Applied physics letters 54 (11), 1031-1033, 1989 | 287 | 1989 |
Long coherence times at 300 K for nitrogen-vacancy center spins in diamond grown by chemical vapor deposition TA Kennedy, JS Colton, JE Butler, RC Linares, PJ Doering Applied Physics Letters 83 (20), 4190-4192, 2003 | 265 | 2003 |
Nanomechanical resonant structures in nanocrystalline diamond L Sekaric, JM Parpia, HG Craighead, T Feygelson, BH Houston, JE Butler Applied Physics Letters 81 (23), 4455-4457, 2002 | 254 | 2002 |
Fabrication and characterization of two-dimensional photonic crystal microcavities in nanocrystalline diamond CF Wang, R Hanson, DD Awschalom, EL Hu, T Feygelson, J Yang, ... Applied Physics Letters 91 (20), 2007 | 238 | 2007 |
Exceptionally high voltage Schottky diamond diodes and low boron doping JE Butler, MW Geis, KE Krohn, J Lawless Jr, S Deneault, TM Lyszczarz, ... Semiconductor Science and Technology 18 (3), S67, 2003 | 229 | 2003 |
A kinetic Monte Carlo method for the atomic-scale simulation of chemical vapor deposition: application to diamond CC Battaile, DJ Srolovitz, JE Butler Journal of applied physics 82 (12), 6293-6300, 1997 | 205 | 1997 |
Kinetics of CH radical reactions with selected molecules at room temperature JE Butler, JW Fleming, LP Goss, MC Lin Chemical Physics 56 (3), 355-365, 1981 | 198 | 1981 |
Diamond synthesis using an oxygen-acetylene torch LM Hanssen, WA Carrington, JE Butler, KA Snail Materials Letters 7 (7-8), 289-292, 1988 | 196 | 1988 |
Interfacial electrical properties of DNA-modified diamond thin films: intrinsic response and hybridization-induced field effects W Yang, JE Butler, JN Russell, RJ Hamers Langmuir 20 (16), 6778-6787, 2004 | 193 | 2004 |