The diamond surface: atomic and electronic structure BB Pate
Surface science 165 (1), 83-142, 1986
822 1986 Photoelectric emission from negative-electron-affinity diamond (111) surfaces: Exciton breakup versus conduction-band emission C Bandis, BB Pate
Physical Review B 52 (16), 12056, 1995
272 1995 Simultaneous field emission and photoemission from diamond C Bandis, BB Pate
Applied physics letters 69 (3), 366-368, 1996
195 1996 Capacitance-voltage measurements on metal-SiO2-diamond structures fabricated with (100)-and (111)-oriented substrates MW Geis, JA Gregory, BB Pate
IEEE transactions on electron devices 38, 619-626, 1991
185 1991 Electron emission due to exciton breakup from negative electron affinity diamond C Bandis, BB Pate
Physical review letters 74 (5), 777, 1995
155 1995 Reduced self-heating in AlGaN/GaN HEMTs using nanocrystalline diamond heat-spreading films MJ Tadjer, TJ Anderson, KD Hobart, TI Feygelson, JD Caldwell, CR Eddy, ...
IEEE electron device letters 33 (1), 23-25, 2011
154 2011 Control of the in-plane thermal conductivity of ultra-thin nanocrystalline diamond films through the grain and grain boundary properties J Anaya, S Rossi, M Alomari, E Kohn, L Tóth, B Pécz, KD Hobart, ...
Acta Materialia 103, 141-152, 2016
123 2016 Photoemission and photon‐stimulated ion desorption studies of diamond (111): Hydrogen BB Pate, MH Hecht, C Binns, I Lindau, WE Spicer
Journal of Vacuum Science and Technology 21 (2), 364-367, 1982
119 1982 Anisotropic and inhomogeneous thermal conduction in suspended thin-film polycrystalline diamond A Sood, J Cho, KD Hobart, TI Feygelson, BB Pate, M Asheghi, DG Cahill, ...
Journal of Applied Physics 119 (17), 2016
114 2016 Formation of surface states on the (111) surface of diamond BB Pate, PM Stefan, C Binns, PJ Jupiter, ML Shek, I Lindau, WE Spicer
Journal of Vacuum Science and Technology 19 (3), 349-354, 1981
113 1981 Spectroscopic Evidence for the Coulomb Interaction in U and U JW Allen, SJ Oh, LE Cox, WP Ellis, MS Wire, Z Fisk, JL Smith, BB Pate, ...
Physical review letters 54 (24), 2635, 1985
107 1985 Simultaneous determination of the lattice thermal conductivity and grain/grain thermal resistance in polycrystalline diamond J Anaya, T Bai, Y Wang, C Li, M Goorsky, TL Bougher, L Yates, Z Cheng, ...
Acta Materialia 139, 215-225, 2017
80 2017 Electronic structure of the diamond (111) 1× 1 surface: Valence‐band structure, band bending, and band gap states BB Pate, WE Spicer, T Ohta, I Lindau
Journal of Vacuum Science and Technology 17 (5), 1087-1093, 1980
70 1980 Valence-band photoemission in (111) near the 5d resonant photon energy LE Cox, WP Ellis, RD Cowan, JW Allen, SJ Oh, I Lindau, BB Pate, AJ Arko
Physical Review B 35 (11), 5761, 1987
69 1987 Tunable thermal energy transport across diamond membranes and diamond–Si interfaces by nanoscale graphoepitaxy Z Cheng, T Bai, J Shi, T Feng, Y Wang, M Mecklenburg, C Li, KD Hobart, ...
ACS applied materials & interfaces 11 (20), 18517-18527, 2019
60 2019 Nanocrystalline diamond resonator array for RF signal processing JW Baldwin, MK Zalalutdinov, T Feygelson, BB Pate, JE Butler, ...
Diamond and related materials 15 (11-12), 2061-2067, 2006
58 2006 Extended x-ray-absorption fine-structure studies of diamond and graphite G Comelli, J Stöhr, W Jark, BB Pate
Physical Review B 37 (9), 4383, 1988
58 1988 Ultrathin single crystal diamond nanomechanical dome resonators MK Zalalutdinov, MP Ray, DM Photiadis, JT Robinson, JW Baldwin, ...
Nano letters 11 (10), 4304-4308, 2011
57 2011 Nanocrystalline diamond integration with III-nitride HEMTs TJ Anderson, KD Hobart, MJ Tadjer, AD Koehler, EA Imhoff, JK Hite, ...
ECS Journal of Solid State Science and Technology 6 (2), Q3036, 2016
55 2016 Carbon 1s studies of diamond(111): Surface shifts, hydrogenation, and electron escape lengths BB Pate, M Oshima, JA Silberman, G Rossi, I Lindau, WE Spicer
Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 2 (2 …, 1984
54 1984