Eutectic gallium‐indium (EGaIn): a liquid metal alloy for the formation of stable structures in microchannels at room temperature MD Dickey, RC Chiechi, RJ Larsen, EA Weiss, DA Weitz, GM Whitesides Advanced functional materials 18 (7), 1097-1104, 2008 | 1485 | 2008 |
Stretchable and soft electronics using liquid metals MD Dickey Advanced materials 29 (27), 1606425, 2017 | 1450 | 2017 |
3D printing of free standing liquid metal microstructures C Ladd, JH So, J Muth, MD Dickey Adv. Mater 25 (36), 5081-5085, 2013 | 965 | 2013 |
Liquid metals: fundamentals and applications in chemistry T Daeneke, K Khoshmanesh, N Mahmood, IA De Castro, D Esrafilzadeh, ... Chemical Society Reviews 47 (11), 4073-4111, 2018 | 862 | 2018 |
Eutectic gallium–indium (EGaIn): a moldable liquid metal for electrical characterization of self‐assembled monolayers RC Chiechi, EA Weiss, MD Dickey, GM Whitesides Angewandte Chemie International Edition 47 (1), 142-144, 2008 | 862 | 2008 |
Foldable printed circuit boards on paper substrates AC Siegel, ST Phillips, MD Dickey, N Lu, Z Suo, GM Whitesides Advanced Functional Materials 20 (1), 28-35, 2010 | 800 | 2010 |
Reversibly deformable and mechanically tunable fluidic antennas JH So, J Thelen, A Qusba, GJ Hayes, G Lazzi, MD Dickey Advanced Functional Materials 19 (22), 3632-3637, 2009 | 685 | 2009 |
Emerging applications of liquid metals featuring surface oxides MD Dickey ACS applied materials & interfaces 6 (21), 18369-18379, 2014 | 650 | 2014 |
Self-folding of polymer sheets using local light absorption Y Liu, JK Boyles, J Genzer, MD Dickey Soft matter 8 (6), 1764-1769, 2012 | 649 | 2012 |
Ultrastretchable fibers with metallic conductivity using a liquid metal alloy core S Zhu, JH So, R Mays, S Desai, WR Barnes, B Pourdeyhimi, MD Dickey Advanced Functional Materials 23 (18), 2308-2314, 2013 | 621 | 2013 |
Transformable liquid-metal nanomedicine Y Lu, Q Hu, Y Lin, DB Pacardo, C Wang, W Sun, FS Ligler, MD Dickey, ... Nature communications 6 (1), 10066, 2015 | 527 | 2015 |
Self-healing stretchable wires for reconfigurable circuit wiring and 3D microfluidics. E Palleau, S Reece, SC Desai, ME Smith, MD Dickey Advanced Materials (Deerfield Beach, Fla.) 25 (11), 1589-1592, 2013 | 449 | 2013 |
Reversible patterning and actuation of hydrogels by electrically assisted ionoprinting E Palleau, D Morales, MD Dickey, OD Velev Nature communications 4 (1), 2257, 2013 | 445 | 2013 |
Flexible liquid metal alloy (EGaIn) microstrip patch antenna GJ Hayes, JH So, A Qusba, MD Dickey, G Lazzi IEEE transactions on Antennas and Propagation 60 (5), 2151-2156, 2012 | 428 | 2012 |
Liquid metal enabled microfluidics K Khoshmanesh, SY Tang, JY Zhu, S Schaefer, A Mitchell, ... Lab on a Chip 17 (6), 974-993, 2017 | 421 | 2017 |
Sequential self-folding of polymer sheets Y Liu, B Shaw, MD Dickey, J Genzer Science Advances 3 (3), e1602417, 2017 | 399 | 2017 |
Giant and switchable surface activity of liquid metal via surface oxidation MR Khan, CB Eaker, EF Bowden, MD Dickey Proceedings of the National Academy of Sciences 111 (39), 14047-14051, 2014 | 385 | 2014 |
Electro-actuated hydrogel walkers with dual responsive legs D Morales, E Palleau, MD Dickey, OD Velev Soft matter 10 (9), 1337-1348, 2014 | 364 | 2014 |
Light-powered electrical switch based on cargo-lifting azobenzene monolayers V Ferri, M Elbing, G Pace, MD Dickey, M Zharnikov, P Samorì, M Mayor, ... ANGEWANDTE CHEMIE-INTERNATIONAL EDITION IN ENGLISH- 47 (18), 3407, 2008 | 361 | 2008 |
“2D or not 2D”: Shape-programming polymer sheets Y Liu, J Genzer, MD Dickey Progress in Polymer Science 52, 79-106, 2016 | 352 | 2016 |