Thermo‐plasmonics: using metallic nanostructures as nano‐sources of heat G Baffou, R Quidant Laser & Photonics Reviews 7 (2), 171-187, 2013 | 1442 | 2013 |
Nanoscale control of optical heating in complex plasmonic systems G Baffou, R Quidant, FJ García de Abajo ACS nano 4 (2), 709-716, 2010 | 800 | 2010 |
Nanoplasmonics for chemistry G Baffou, R Quidant Chemical Society Reviews 43 (11), 3898-3907, 2014 | 725 | 2014 |
Heat generation in plasmonic nanostructures: Influence of morphology G Baffou, R Quidant, C Girard Applied Physics Letters 94 (15), 2009 | 643 | 2009 |
Mapping intracellular temperature using green fluorescent protein JS Donner, SA Thompson, MP Kreuzer, G Baffou, R Quidant Nano letters 12 (4), 2107-2111, 2012 | 489 | 2012 |
Photoinduced heating of nanoparticle arrays G Baffou, P Berto, E Bermúdez Ureña, R Quidant, S Monneret, J Polleux, ... Acs Nano 7 (8), 6478-6488, 2013 | 446 | 2013 |
Applications and challenges of thermoplasmonics G Baffou, F Cichos, R Quidant Nature Materials 19 (9), 946-958, 2020 | 376 | 2020 |
Super-heating and micro-bubble generation around plasmonic nanoparticles under cw illumination G Baffou, J Polleux, H Rigneault, S Monneret The Journal of Physical Chemistry C 118 (9), 4890-4898, 2014 | 371 | 2014 |
Plasmon-assisted optofluidics JS Donner, G Baffou, D McCloskey, R Quidant Acs nano 5 (7), 5457-5462, 2011 | 371 | 2011 |
Femtosecond-pulsed optical heating of gold nanoparticles G Baffou, H Rigneault Physical Review B—Condensed Matter and Materials Physics 84 (3), 035415, 2011 | 371 | 2011 |
Mapping heat origin in plasmonic structures G Baffou, C Girard, R Quidant Physical review letters 104 (13), 136805, 2010 | 359 | 2010 |
Thermoplasmonics G Baffou, R Quidant World Scientific Handbook of Metamaterials and Plasmonics: Volume 4: Recent …, 2018 | 266 | 2018 |
Simple experimental procedures to distinguish photothermal from hot-carrier processes in plasmonics G Baffou, I Bordacchini, A Baldi, R Quidant Light: Science & Applications 9 (1), 108, 2020 | 262 | 2020 |
A critique of methods for temperature imaging in single cells G Baffou, H Rigneault, D Marguet, L Jullien Nature methods 11 (9), 899-901, 2014 | 258 | 2014 |
Thermal imaging of nanostructures by quantitative optical phase analysis G Baffou, P Bon, J Savatier, J Polleux, M Zhu, M Merlin, H Rigneault, ... ACS nano 6 (3), 2452-2458, 2012 | 257 | 2012 |
Quantifying the efficiency of plasmonic materials for near-field enhancement and photothermal conversion A Lalisse, G Tessier, J Plain, G Baffou The Journal of Physical Chemistry C 119 (45), 25518-25528, 2015 | 227 | 2015 |
Temperature mapping near plasmonic nanostructures using fluorescence polarization anisotropy G Baffou, MP Kreuzer, F Kulzer, R Quidant Optics express 17 (5), 3291-3298, 2009 | 223 | 2009 |
Thermoplasmonics modeling: A Green’s function approach G Baffou, R Quidant, C Girard Physical Review B—Condensed Matter and Materials Physics 82 (16), 165424, 2010 | 208 | 2010 |
Fluence threshold for photothermal bubble generation using plasmonic nanoparticles K Metwally, S Mensah, G Baffou The Journal of Physical Chemistry C 119 (51), 28586-28596, 2015 | 191 | 2015 |
Plasmonic efficiencies of nanoparticles made of metal nitrides (TiN, ZrN) compared with gold A Lalisse, G Tessier, J Plain, G Baffou Scientific reports 6 (1), 38647, 2016 | 164 | 2016 |