Progess in superhydrophobic surface development P Roach, NJ Shirtcliffe, MI Newton Soft matter 4 (2), 224-240, 2008 | 2029 | 2008 |
An introduction to superhydrophobicity NJ Shirtcliffe, G McHale, S Atherton, MI Newton Advances in colloid and interface science 161 (1-2), 124-138, 2010 | 761 | 2010 |
Dual-scale roughness produces unusually water-repellent surfaces N Shirtcliffe, G McHale, M Newton, G Chabrol, C Perry Advanced Materials 16 (21), 1929-1932, 2004 | 633 | 2004 |
Intrinsically superhydrophobic organosilica sol− gel foams NJ Shirtcliffe, G McHale, MI Newton, CC Perry Langmuir 19 (14), 5626-5631, 2003 | 554 | 2003 |
Analysis of droplet evaporation on a superhydrophobic surface G McHale, S Aqil, NJ Shirtcliffe, MI Newton, HY Erbil Langmuir 21 (24), 11053-11060, 2005 | 509 | 2005 |
Contact-angle hysteresis on super-hydrophobic surfaces G McHale, NJ Shirtcliffe, MI Newton Langmuir 20 (23), 10146-10149, 2004 | 500 | 2004 |
Drop evaporation on solid surfaces: constant contact angle mode HY Erbil, G McHale, MI Newton Langmuir 18 (7), 2636-2641, 2002 | 464 | 2002 |
Wetting and wetting transitions on copper-based super-hydrophobic surfaces NJ Shirtcliffe, G McHale, MI Newton, CC Perry Langmuir 21 (3), 937-943, 2005 | 386 | 2005 |
Liquid marbles: principles and applications G McHale, MI Newton Soft Matter 7 (12), 5473-5481, 2011 | 367 | 2011 |
Evaporation of microdroplets and the wetting of solid surfaces SM Rowan, MI Newton, G McHale The journal of physical chemistry 99 (35), 13268-13271, 1995 | 360 | 1995 |
Immersed superhydrophobic surfaces: Gas exchange, slip and drag reduction properties G McHale, MI Newton, NJ Shirtcliffe Soft matter 6 (4), 714-719, 2010 | 303 | 2010 |
Topography driven spreading G McHale, NJ Shirtcliffe, S Aqil, CC Perry, MI Newton Physical review letters 93 (3), 036102, 2004 | 289 | 2004 |
Superhydrophobic copper tubes with possible flow enhancement and drag reduction NJ Shirtcliffe, G McHale, MI Newton, Y Zhang ACS applied materials & interfaces 1 (6), 1316-1323, 2009 | 264 | 2009 |
Determination of the receding contact angle of sessile drops on polymer surfaces by evaporation HY Erbil, G McHale, SM Rowan, MI Newton Langmuir 15 (21), 7378-7385, 1999 | 256 | 1999 |
Liquid marbles: topical context within soft matter and recent progress G McHale, MI Newton Soft matter 11 (13), 2530-2546, 2015 | 252 | 2015 |
Porous materials show superhydrophobic to superhydrophilic switching NJ Shirtcliffe, G McHale, MI Newton, CC Perry, P Roach Chemical Communications, 3135-3137, 2005 | 243 | 2005 |
Nano-scale superhydrophobicity: suppression of protein adsorption and promotion of flow-induced detachment Y Koc, AJ de Mello, G McHale, MI Newton, P Roach, NJ Shirtcliffe Lab on a Chip 8 (4), 582-586, 2008 | 241 | 2008 |
The use of high aspect ratio photoresist (SU-8) for super-hydrophobic pattern prototyping NJ Shirtcliffe, S Aqil, C Evans, G McHale, MI Newton, CC Perry, P Roach Journal of Micromechanics and Microengineering 14 (10), 1384, 2004 | 237 | 2004 |
Evaporation and the wetting of a low-energy solid surface G McHale, SM Rowan, MI Newton, MK Banerjee The Journal of Physical Chemistry B 102 (11), 1964-1967, 1998 | 236 | 1998 |
The superhydrophobicity of polymer surfaces: recent developments NJ Shirtcliffe, G McHale, M I. Newton Journal of Polymer Science Part B: Polymer Physics 49 (17), 1203-1217, 2011 | 212 | 2011 |