| Long range electrostatic forces in ionic liquids MA Gebbie, AM Smith, HA Dobbs, GG Warr, X Banquy, M Valtiner, ... Chemical communications 53 (7), 1214-1224, 2017 | 351 | 2017 |
| Forces measured between hydrophobic surfaces due to a submicroscopic bridging bubble A Carambassis, LC Jonker, P Attard, MW Rutland Physical Review Letters 80 (24), 5357, 1998 | 345 | 1998 |
| Feeling small: exploring the tactile perception limits L Skedung, M Arvidsson, JY Chung, CM Stafford, B Berglund, ... Scientific reports 3 (1), 2617, 2013 | 327 | 2013 |
| Techniques for measuring surface forces PM Claesson, T Ederth, V Bergeron, MW Rutland Advances in colloid and interface science 67, 119-183, 1996 | 308 | 1996 |
| Adsorption of CTAB on hydrophilic silica studied by linear and nonlinear optical spectroscopy E Tyrode, MW Rutland, CD Bain Journal of the American Chemical Society 130 (51), 17434-17445, 2008 | 272 | 2008 |
| Control of nanoscale friction on gold in an ionic liquid by a potential-dependent ionic lubricant layer J Sweeney, F Hausen, R Hayes, GB Webber, F Endres, MW Rutland, ... Physical review letters 109 (15), 155502, 2012 | 243 | 2012 |
| Atomic force microscopy and direct surface force measurements (IUPAC Technical Report) J Ralston, I Larson, MW Rutland, AA Feiler, M Kleijn Pure and applied chemistry 77 (12), 2149-2170, 2005 | 196 | 2005 |
| Adsorption of the poly (oxyethylene) nonionic surfactant C12E5 to silica: a study using atomic force microscopy MW Rutland, TJ Senden Langmuir 9 (2), 412-418, 1993 | 193 | 1993 |
| Hydration forces between silica surfaces: Experimental data and predictions from different theories JJ Valle-Delgado, JA Molina-Bolivar, F Galisteo-Gonzalez, ... The Journal of chemical physics 123 (3), 2005 | 181 | 2005 |
| An ionic liquid lubricant enables superlubricity to be “switched on” in situ using an electrical potential H Li, RJ Wood, MW Rutland, R Atkin Chemical Communications 50 (33), 4368-4370, 2014 | 179 | 2014 |
| Ionic liquid lubrication: influence of ion structure, surface potential and sliding velocity H Li, MW Rutland, R Atkin Physical Chemistry Chemical Physics 15 (35), 14616-14623, 2013 | 168 | 2013 |
| Surfaces forces between silica surfaces in cationic surfactant solutions: adsorption and bilayer formation at normal and high pH MW Rutland, JL Parker Langmuir 10 (4), 1110-1121, 1994 | 168 | 1994 |
| Lubricating properties of the initial salivary pellicle—an AFM study IC Hahn Berg, MW Rutland, T Arnebrant Biofouling 19 (6), 365-369, 2003 | 162 | 2003 |
| Adsorption of pNIPAM layers on hydrophobic gold surfaces, measured in situ by QCM and SPR MA Plunkett, Z Wang, MW Rutland, D Johannsmann Langmuir 19 (17), 6837-6844, 2003 | 155 | 2003 |
| Tactile perception: Finger friction, surface roughness and perceived coarseness L Skedung, K Danerlöv, U Olofsson, CM Johannesson, M Aikala, J Kettle, ... Tribology International 44 (5), 505-512, 2011 | 150 | 2011 |
| Hydration state of nonionic surfactant monolayers at the liquid/vapor interface: Structure determination by vibrational sum frequency spectroscopy E Tyrode, CM Johnson, A Kumpulainen, MW Rutland, PM Claesson Journal of the American Chemical Society 127 (48), 16848-16859, 2005 | 149 | 2005 |
| Comparison of different methods to calibrate torsional spring constant and photodetector for atomic force microscopy friction measurements in air and liquid T Pettersson, N Nordgren, MW Rutland, A Feiler Review of Scientific Instruments 78 (9), 2007 | 143 | 2007 |
| Tip friction—torsional spring constant determination G Bogdanovic, A Meurk, MW Rutland Colloids and Surfaces B: Biointerfaces 19 (4), 397-405, 2000 | 143 | 2000 |
| Superlubricity using repulsive van der Waals forces AA Feiler, L Bergström, MW Rutland Langmuir 24 (6), 2274-2276, 2008 | 125 | 2008 |
| Xyloglucan in cellulose modification Q Zhou, MW Rutland, TT Teeri, H Brumer Cellulose 14, 625-641, 2007 | 123 | 2007 |
