Pathways to electrochemical solar-hydrogen technologies S Ardo, DF Rivas, MA Modestino, VS Greiving, FF Abdi, EA Llado, ... Energy & environmental science 11 (10), 2768-2783, 2018 | 301 | 2018 |
Hollow mesoporous plasmonic nanoshells for enhanced solar vapor generation MS Zielinski, JW Choi, T La Grange, M Modestino, SMH Hashemi, Y Pu, ... Nano letters 16 (4), 2159-2167, 2016 | 259 | 2016 |
Experimental and numerical investigation of heat transfer in a miniature heat sink utilizing silica nanofluid SA Fazeli, SMH Hashemi, H Zirakzadeh, M Ashjaee Superlattices and Microstructures 51 (2), 247-264, 2012 | 133 | 2012 |
A membrane-less electrolyzer for hydrogen production across the pH scale SMH Hashemi, MA Modestino, D Psaltis Energy & Environmental Science 8 (7), 2003-2009, 2015 | 122 | 2015 |
A versatile and membrane-less electrochemical reactor for the electrolysis of water and brine SMH Hashemi, P Karnakov, P Hadikhani, E Chinello, S Litvinov, C Moser, ... Energy & Environmental Science 12 (5), 1592-1604, 2019 | 110 | 2019 |
Mass transport aspects of electrochemical solar-hydrogen generation MA Modestino, SMH Hashemi, S Haussener Energy & Environmental Science 9 (5), 1533-1551, 2016 | 107 | 2016 |
The potential for microfluidics in electrochemical energy systems MA Modestino, DF Rivas, SMH Hashemi, JGE Gardeniers, D Psaltis Energy & environmental science 9 (11), 3381-3391, 2016 | 88 | 2016 |
Study of heat transfer enhancement in a nanofluid-cooled miniature heat sink SMH Hashemi, SA Fazeli, H Zirakzadeh, M Ashjaee International Communications in Heat and Mass Transfer 39 (6), 877-884, 2012 | 64 | 2012 |
Learning from droplet flows in microfluidic channels using deep neural networks P Hadikhani, N Borhani, SM H. Hashemi, D Psaltis Scientific reports 9 (1), 8114, 2019 | 54 | 2019 |
Vapor-fed microfluidic hydrogen generator MA Modestino, M Dumortier, SMH Hashemi, S Haussener, C Moser, ... Lab on a Chip 15 (10), 2287-2296, 2015 | 47 | 2015 |
Fully developed non-Darcian forced convection slip-flow in a micro-annulus filled with a porous medium: analytical solution SMH Hashemi, SA Fazeli, H Shokouhmand Energy Conversion and Management 52 (2), 1054-1060, 2011 | 43 | 2011 |
Membrane-less micro fuel cell based on two-phase flow SMH Hashemi, M Neuenschwander, P Hadikhani, MA Modestino, ... Journal of Power Sources 348, 212-218, 2017 | 42 | 2017 |
Inertial manipulation of bubbles in rectangular microfluidic channels P Hadikhani, SMH Hashemi, G Balestra, L Zhu, MA Modestino, F Gallaire, ... Lab on a Chip 18 (7), 1035-1046, 2018 | 41 | 2018 |
A membrane-less electrolyzer with porous walls for high throughput and pure hydrogen production P Hadikhani, SMH Hashemi, SA Schenk, D Psaltis Sustainable energy & fuels 5 (9), 2419-2432, 2021 | 33 | 2021 |
The potentials of additive manufacturing for mass production of electrochemical energy systems SMH Hashemi, U Babic, P Hadikhani, D Psaltis Current Opinion in Electrochemistry 20, 54-59, 2020 | 29 | 2020 |
Solar thermal harvesting for enhanced photocatalytic reactions SMH Hashemi, JW Choi, D Psaltis Physical Chemistry Chemical Physics 16 (11), 5137-5141, 2014 | 20 | 2014 |
A micropillar array for sample concentration via in-plane evaporation JW Choi, SM Hosseini Hashemi, D Erickson, D Psaltis Biomicrofluidics 8 (4), 2014 | 17 | 2014 |
The impact of surfactants on the inertial separation of bubbles in microfluidic electrolyzers P Hadikhani, SMH Hashemi, D Psaltis Journal of the Electrochemical Society 167 (13), 134504, 2020 | 10 | 2020 |
Solar-electrochemical platforms for sodium hypochlorite generation in developing countries E Chinello, SMH Hashemi, D Psaltis, C Moser Journal of the Electrochemical Society 166 (12), E336, 2019 | 7 | 2019 |
Deep-learning PDEs with unlabeled data and hardwiring physics laws SMH Hashemi, D Psaltis arXiv preprint arXiv:1904.06578, 2019 | 5 | 2019 |