High-yield production of graphene by liquid-phase exfoliation of graphite Y Hernandez, V Nicolosi, M Lotya, FM Blighe, Z Sun, S De, IT McGovern, ... Nature nanotechnology 3 (9), 563-568, 2008 | 7491 | 2008 |
Small but strong: a review of the mechanical properties of carbon nanotube–polymer composites JN Coleman, U Khan, WJ Blau, YK Gun’ko Carbon 44 (9), 1624-1652, 2006 | 5121 | 2006 |
Mechanical reinforcement of polymers using carbon nanotubes JN Coleman, U Khan, YK Gun'ko Advanced materials 18 (6), 689-706, 2006 | 2051 | 2006 |
Recent advances in research on carbon nanotube–polymer composites MT Byrne, YK Gun'ko Advanced materials 22 (15), 1672-1688, 2010 | 1140 | 2010 |
High performance nanotube‐reinforced plastics: Understanding the mechanism of strength increase JN Coleman, M Cadek, R Blake, V Nicolosi, KP Ryan, C Belton, ... Advanced functional materials 14 (8), 791-798, 2004 | 751 | 2004 |
Multifunctional magnetic-fluorescent nanocomposites for biomedical applications SA Corr, YP Rakovich, YK Gun’ko Nanoscale Research Letters 3, 87-104, 2008 | 628 | 2008 |
Theory of photoinjection of hot plasmonic carriers from metal nanostructures into semiconductors and surface molecules AO Govorov, H Zhang, YK Gun’ko The Journal of Physical Chemistry C 117 (32), 16616-16631, 2013 | 604 | 2013 |
Oxygen radical functionalization of boron nitride nanosheets T Sainsbury, A Satti, P May, Z Wang, I McGovern, YK Gun’ko, J Coleman Journal of the American Chemical Society 134 (45), 18758-18771, 2012 | 550 | 2012 |
Microplastic release from the degradation of polypropylene feeding bottles during infant formula preparation D Li, Y Shi, L Yang, L Xiao, DK Kehoe, YK Gun’ko, JJ Boland, JJ Wang Nature Food 1 (11), 746-754, 2020 | 362 | 2020 |
Application of semiconductor quantum dots in bioimaging and biosensing IV Martynenko, AP Litvin, F Purcell-Milton, AV Baranov, AV Fedorov, ... Journal of Materials Chemistry B 5 (33), 6701-6727, 2017 | 342 | 2017 |
Photogeneration of hot plasmonic electrons with metal nanocrystals: Quantum description and potential applications AO Govorov, H Zhang, HV Demir, YK Gun’Ko Nano Today 9 (1), 85-101, 2014 | 322 | 2014 |
Recent advances in the application of magnetic nanoparticles as a support for homogeneous catalysts J Govan, YK Gun’ko Nanomaterials 4 (2), 222-241, 2014 | 316 | 2014 |
Nonfunctionalized nanocrystals can exploit a cell's active transport machinery delivering them to specific nuclear and cytoplasmic compartments I Nabiev, S Mitchell, A Davies, Y Williams, D Kelleher, R Moore, ... Nano letters 7 (11), 3452-3461, 2007 | 294 | 2007 |
A magnetic-nanoparticle-supported 4-N, N-dialkylaminopyridine catalyst: Excellent reactivity combined with facile catalyst recovery and recyclability C Ó Dálaigh, SA Corr, Y Gun'ko, SJ Connon Angewandte Chemie (International Edition) 119 (23), 4407-4410, 2007 | 286 | 2007 |
A generic organometallic approach toward ultra-strong carbon nanotube polymer composites R Blake, YK Gun'ko, J Coleman, M Cadek, A Fonseca, JB Nagy, WJ Blau Journal of the American Chemical Society 126 (33), 10226-10227, 2004 | 284 | 2004 |
Chiral nanoparticle assemblies: circular dichroism, plasmonic interactions, and exciton effects AO Govorov, YK Gun'ko, JM Slocik, VA Gérard, Z Fan, RR Naik Journal of Materials Chemistry 21 (42), 16806-16818, 2011 | 262 | 2011 |
Carbon nanomaterials for dye‐sensitized solar cell applications: a bright future LJ Brennan, MT Byrne, M Bari, YK Gun'ko Advanced Energy Materials 1 (4), 472-485, 2011 | 239 | 2011 |
Colloidal quantum dots for optoelectronics AP Litvin, IV Martynenko, F Purcell-Milton, AV Baranov, AV Fedorov, ... Journal of Materials Chemistry A 5 (26), 13252-13275, 2017 | 226 | 2017 |
Chiral shells and achiral cores in CdS quantum dots SD Elliott, MP Moloney, YK Gun’ko Nano Letters 8 (8), 2452-2457, 2008 | 223 | 2008 |
Chiral highly luminescent CdS quantum dots MP Moloney, YK Gun'ko, JM Kelly Chemical Communications, 3900-3902, 2007 | 219 | 2007 |