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Michael J. Gordon
Michael J. Gordon
Verified email at ucsb.edu
Title
Cited by
Cited by
Year
Catalytic molten metals for the direct conversion of methane to hydrogen and separable carbon
DC Upham, V Agarwal, A Khechfe, ZR Snodgrass, MJ Gordon, H Metiu, ...
Science 358 (6365), 917-921, 2017
3842017
Size effects in mechanical deformation and fracture of cantilevered silicon nanowires
MJ Gordon, T Baron, F Dhalluin, P Gentile, P Ferret
Nano letters 9 (2), 525-529, 2009
2222009
Comparison of size-dependent characteristics of blue and green InGaN microLEDs down to 1 μm in diameter
JM Smith, R Ley, MS Wong, YH Baek, JH Kang, CH Kim, MJ Gordon, ...
Applied Physics Letters 116 (7), 2020
1782020
Dry reforming of methane catalysed by molten metal alloys
C Palmer, DC Upham, S Smart, MJ Gordon, H Metiu, EW McFarland
Nature Catalysis 3 (1), 83-89, 2020
1752020
Statistics of electrical breakdown field in HfO2 and SiO2 films from millimeter to nanometer length scales
C Sire, S Blonkowski, MJ Gordon, T Baron
Applied Physics Letters 91 (24), 2007
1422007
Methane pyrolysis with a molten Cu–Bi alloy catalyst
C Palmer, M Tarazkar, HH Kristoffersen, J Gelinas, MJ Gordon, ...
Acs Catalysis 9 (9), 8337-8345, 2019
1242019
Catalytic methane pyrolysis in molten MnCl2-KCl
D Kang, N Rahimi, MJ Gordon, H Metiu, EW McFarland
Applied Catalysis B: Environmental 254, 659-666, 2019
1232019
Demonstration of ultra-small (< 10 μm) 632 nm red InGaN micro-LEDs with useful on-wafer external quantum efficiency (> 0.2%) for mini-displays
SS Pasayat, C Gupta, MS Wong, R Ley, MJ Gordon, SP DenBaars, ...
Applied Physics Express 14 (1), 011004, 2020
1212020
Revealing the importance of light extraction efficiency in InGaN/GaN microLEDs via chemical treatment and dielectric passivation
RT Ley, JM Smith, MS Wong, T Margalith, S Nakamura, SP DenBaars, ...
Applied Physics Letters 116 (25), 2020
1192020
Solid carbon production and recovery from high temperature methane pyrolysis in bubble columns containing molten metals and molten salts
N Rahimi, D Kang, J Gelinas, A Menon, MJ Gordon, H Metiu, ...
Carbon 151, 181-191, 2019
1072019
Gas-surface dynamics and profile evolution during etching of silicon
GS Hwang, CM Anderson, MJ Gordon, TA Moore, TK Minton, KP Giapis
Physical review letters 77 (14), 3049, 1996
841996
Separation of colloidal nanoparticles using capillary immersion forces
MJ Gordon, D Peyrade
Applied Physics Letters 89 (5), 2006
812006
Si nanowire growth and characterization using a microelectronics-compatible catalyst: PtSi
T Baron, M Gordon, F Dhalluin, C Ternon, P Ferret, P Gentile
Applied physics letters 89 (23), 2006
742006
Moth eye-inspired anti-reflective surfaces for improved IR optical systems & visible LEDs fabricated with colloidal lithography and etching
LW Chan, DE Morse, MJ Gordon
Bioinspiration & biomimetics 13 (4), 041001, 2018
692018
Catalytic methane pyrolysis in molten alkali chloride salts containing iron
D Kang, C Palmer, D Mannini, N Rahimi, MJ Gordon, H Metiu, ...
ACS Catalysis 10 (13), 7032-7042, 2020
672020
Oxygen evolution on Fe-doped NiO electrocatalysts deposited via microplasma
AC Pebley, E Decolvenaere, TM Pollock, MJ Gordon
Nanoscale 9 (39), 15070-15082, 2017
642017
AFM characterization of anti-sticking layers used in nanoimprint
J Tallal, M Gordon, K Berton, AL Charley, D Peyrade
Microelectronic engineering 83 (4-9), 851-854, 2006
632006
Growth of nanostructured CuO thin films via microplasma-assisted, reactive chemical vapor deposition at high pressures
T Koh, E O'Hara, MJ Gordon
Journal of Crystal Growth 363, 69-75, 2013
572013
Color-tunable< 10 μm square InGaN micro-LEDs on compliant GaN-on-porous-GaN pseudo-substrates
SS Pasayat, R Ley, C Gupta, MS Wong, C Lynsky, Y Wang, MJ Gordon, ...
Applied Physics Letters 117 (6), 2020
522020
Catalytic methane pyrolysis with liquid and vapor phase tellurium
J Zeng, M Tarazkar, T Pennebaker, MJ Gordon, H Metiu, EW McFarland
Acs Catalysis 10 (15), 8223-8230, 2020
482020
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