| 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 | 402 | 2017 |
| 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 | 222 | 2009 |
| 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 | 187 | 2020 |
| 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 | 184 | 2020 |
| 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 | 143 | 2007 |
| 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 | 130 | 2019 |
| 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 | 129 | 2020 |
| 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 | 129 | 2019 |
| 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 | 126 | 2020 |
| 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 | 116 | 2019 |
| 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 | 84 | 1996 |
| Separation of colloidal nanoparticles using capillary immersion forces MJ Gordon, D Peyrade Applied Physics Letters 89 (5), 2006 | 81 | 2006 |
| 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 | 74 | 2006 |
| 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 | 73 | 2020 |
| 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 | 71 | 2018 |
| Oxygen evolution on Fe-doped NiO electrocatalysts deposited via microplasma AC Pebley, E Decolvenaere, TM Pollock, MJ Gordon Nanoscale 9 (39), 15070-15082, 2017 | 65 | 2017 |
| 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 | 63 | 2006 |
| 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 | 57 | 2013 |
| 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 | 54 | 2020 |
| 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 | 53 | 2020 |
