Generation of monodisperse droplets 0.3 to 4 µm in diameter from electrified cone–jets of highly conducting and viscous liquids J Rosell-Llompart, J Fernandez de la Mora J. Aerosol Sci 25 (6), 1093-1119, 1994 | 336 | 1994 |
Generation of monodisperse droplets 0.3 to 4 μm in diameter from electrified cone-jets of highly conducting and viscous liquids J Rosell-Llompart, JF de La Mora Journal of Aerosol Science 25 (6), 1093-1119, 1994 | 330 | 1994 |
Electrosprays in the cone-jet mode: From Taylor cone formation to spray development J Rosell-Llompart, J Grifoll, IG Loscertales Journal of Aerosol Science 125, 2-31, 2018 | 253 | 2018 |
Differential mobility analysis of molecular ions and nanometer particles JF de la Mora, L De Juan, T Eichler, J Rosell TrAC Trends in Analytical Chemistry 17 (6), 328-339, 1998 | 189 | 1998 |
Temperature controlling device for aerosol drug delivery JA Schuster, J Rosell, A Eliahu, CJ Flaim US Patent 6,694,975, 2004 | 186 | 2004 |
Sizing nanoparticles and ions with a short differential mobility analyzer J Rosell-Llompart, IG Loscertales, D Bingham, JF De La Mora Journal of Aerosol Science 27 (5), 695-719, 1996 | 175 | 1996 |
Generation of submicron monodisperse aerosols in electrosprays JF De La Mora, J Navascues, F Fernandez, J Rosell-Llompart Journal of Aerosol Science 21, S673-S676, 1990 | 148 | 1990 |
Ultrafast 3D printing with submicrometer features using electrostatic jet deflection I Liashenko, J Rosell-Llompart, A Cabot Nature communications 11 (1), 753, 2020 | 141 | 2020 |
Back to normal: An old physics route to reduce SARS-CoV-2 transmission in indoor spaces FJ García de Abajo, RJ Hernández, I Kaminer, A Meyerhans, ... ACS nano 14 (7), 7704-7713, 2020 | 128 | 2020 |
In electrospray ionization, how much pull does an ion need to escape its droplet prison? JB Fenn, J Rosell, CK Meng Journal of the American Society for Mass Spectrometry 8 (11), 1147-1157, 1997 | 128 | 1997 |
Highly aligned electrospun nanofibers by elimination of the whipping motion P Kiselev, J Rosell‐Llompart Journal of Applied Polymer Science 125 (3), 2433-2441, 2012 | 120 | 2012 |
Aerosol created by directed flow of fluids and devices and methods for producing same J Rosell, A Ganan-Calvo US Patent App. 10/649,376, 2006 | 107 | 2006 |
Turbulence in pneumatic flow focusing and flow blurring regimes J Rosell-Llompart, AM Gañán-Calvo Physical Review E 77 (3), 036321, 2008 | 82 | 2008 |
Method and apparatus for separation of ions in a gas for mass spectrometry JF De La Mora, L De Juan, T Eichler, J Rosell US Patent 5,869,831, 1999 | 65 | 1999 |
Polymer solution electrospraying: A tool for engineering particles and films with controlled morphology E Bodnár, J Grifoll, J Rosell-Llompart Journal of Aerosol Science 125, 93-118, 2018 | 63 | 2018 |
Aerodynamic focusing of heavy molecules in seeded supersonic jets J Fernandez de La Mora, J Rosell‐Llompart The Journal of chemical physics 91 (4), 2603-2615, 1989 | 63 | 1989 |
Growth dynamics of granular films produced by electrospray E Bodnár, J Rosell-Llompart Journal of colloid and interface science 407, 536-545, 2013 | 50 | 2013 |
Method and apparatus for separation of ions in a gas for mass spectrometry JF De La Mora, L De Juan, T Eichler, J Rosell US Patent 5,869,831, 1999 | 48 | 1999 |
Solvation studies of electrospray ions—method and early results D Zhan, J Rose, JB Fenn Journal of the American Society for Mass Spectrometry 9 (12), 1241-1247, 1998 | 48 | 1998 |
Efficient Lagrangian simulation of electrospray droplets dynamics J Grifoll, J Rosell-Llompart Journal of aerosol science 47, 78-93, 2012 | 46 | 2012 |