| Sustainable production of highly conductive multilayer graphene ink for wireless connectivity and IoT applications K Pan, Y Fan, T Leng, J Li, Z Xin, J Zhang, L Hao, J Gallop, KS Novoselov, ... Nature communications 9 (1), 1-10, 2018 | 281 | 2018 |
| Measurement and noise performance of nano-superconducting-quantum-interference devices fabricated by focused ion beam L Hao, JC Macfarlane, JC Gallop, D Cox, J Beyer, D Drung, T Schurig Applied Physics Letters 92 (19), 2008 | 162 | 2008 |
| Mapping the electrical properties of large-area graphene P Bøggild, DMA Mackenzie, PR Whelan, DH Petersen, JD Buron, ... 2D Materials 4 (4), 042003, 2017 | 130 | 2017 |
| Transparent conducting graphene hybrid films to improve electromagnetic interference (EMI) shielding performance of graphene L Ma, Z Lu, J Tan, J Liu, X Ding, N Black, T Li, J Gallop, L Hao ACS applied materials & interfaces 9 (39), 34221-34229, 2017 | 118 | 2017 |
| Design concept for a novel SQUID-based microdosemeter S Galer, L Hao, J Gallop, H Palmans, K Kirkby, A Nisbet Radiation Protection Dosimetry 143 (2-4), 427-431, 2011 | 113* | 2011 |
| Correlation of p-doping in CVD Graphene with Substrate Surface Charges S Goniszewski, M Adabi, O Shaforost, SM Hanham, L Hao, N Klein Scientific reports 6 (1), 22858, 2016 | 103 | 2016 |
| Ballistic thermal and electrical conductance measurements on individual multiwall carbon nanotubes E Brown, L Hao, JC Gallop, JC Macfarlane Applied Physics Letters 87 (2), 2005 | 98 | 2005 |
| Sheet resistance measurements of conductive thin films: A comparison of techniques M Naftaly, S Das, J Gallop, K Pan, F Alkhalil, D Kariyapperuma, ... Electronics 10 (8), 960, 2021 | 70 | 2021 |
| Detection of single magnetic nanobead with a nano-superconducting quantum interference device L Hao, C Aßmann, JC Gallop, D Cox, F Ruede, O Kazakova, ... Applied Physics Letters 98 (9), 2011 | 65 | 2011 |
| Ferromagnetism in nanomesh graphene G Ning, C Xu, L Hao, O Kazakova, Z Fan, H Wang, K Wang, J Gao, ... Carbon 51, 390-396, 2013 | 61 | 2013 |
| Non-contact method for measurement of the microwave conductivity of graphene L Hao, J Gallop, S Goniszewski, O Shaforost, N Klein, R Yakimova Applied Physics Letters 103 (12), 2013 | 60 | 2013 |
| Multiple SQUID magnetometer GW Morley, L Hao, JC Mcfarlane US Patent 7,863,892, 2011 | 50 | 2011 |
| Miniature dc SQUID devices for the detection of single atomic spin-flips J Gallop, PW Josephs-Franks, J Davies, L Hao, J Macfarlane Physica C: Superconductivity 368 (1-4), 109-113, 2002 | 44 | 2002 |
| Electrical conductance and breakdown in individual CNx multiwalled nanotubes HJ Burch, JA Davies, E Brown, L Hao, SA Contera, N Grobert, JF Ryan Applied physics letters 89 (14), 2006 | 43 | 2006 |
| Excess noise in thin film grain boundary Josephson junctions and devices L Hao, JC Macfarlane, CM Pegrum Superconductor Science and Technology 9 (8), 678, 1999 | 42 | 1999 |
| Using a 77 K SQUID to measure magnetic fields for NDE A Cochran, JC Macfarlane, LNC Morgan, J Kuznik, R Weston, L Hao, ... IEEE Transactions on Applied Superconductivity 4 (3), 128-135, 1994 | 39 | 1994 |
| Inductive sensor based on nano-scale SQUIDs L Hao, JC Macfarlane, SKH Lam, CP Foley, P Josephs-Franks, JC Gallop IEEE transactions on applied superconductivity 15 (2), 514-517, 2005 | 37 | 2005 |
| Lacunarity and universality L Hao, ZR Yang Journal of Physics A: Mathematical and General 20 (6), 1627, 1987 | 37 | 1987 |
| Contact-free sheet resistance determination of large area graphene layers by an open dielectric loaded microwave cavity O Shaforost, K Wang, S Goniszewski, M Adabi, Z Guo, S Hanham, ... Journal of Applied Physics 117 (2), 2015 | 36 | 2015 |
| The effects of step angle on step edge Josephson junctions on MgO CP Foley, S Lam, B Sankrithyan, Y Wilson, JC Macfarlane, L Hao IEEE transactions on applied superconductivity 7 (2), 3185-3188, 1997 | 36 | 1997 |
Jie ChenBrunel UniversityDirección de correo verificada de brunel.ac.uk
