| Polyelectrolyte complexes: bulk phases and colloidal systems J Gucht, E Spruijt, M Lemmers, MA Cohen Stuart Journal of colloid and interface science 361 (2), 407-422, 2011 | 625 | 2011 |
| Binodal compositions of polyelectrolyte complexes E Spruijt, AH Westphal, JW Borst, MA Cohen Stuart, J van der Gucht Macromolecules 43 (15), 6476-6484, 2010 | 436 | 2010 |
| Enhanced transcription rates in membrane-free protocells formed by coacervation of cell lysate E Sokolova, E Spruijt, MMK Hansen, E Dubuc, J Groen, V Chokkalingam, ... Proceedings of the National Academy of Sciences 110 (29), 11692-11697, 2013 | 348 | 2013 |
| Multiphase complex coacervate droplets T Lu, E Spruijt Journal of the American Chemical Society 142 (6), 2905-2914, 2020 | 311 | 2020 |
| Peptide-based coacervates as biomimetic protocells M Abbas, WP Lipiński, J Wang, E Spruijt Chemical Society Reviews 50 (6), 3690-3705, 2021 | 293 | 2021 |
| Liquid–Liquid Phase Separation in Crowded Environments AAM André, E Spruijt International Journal of Molecular Sciences 21 (16), 5908, 2020 | 260 | 2020 |
| Alkyl‐Functionalized Oxide‐Free Silicon Nanoparticles: Synthesis and Optical Properties M Rosso‐Vasic, E Spruijt, B van Lagen, L De Cola, H Zuilhof Small 4 (10), 1835-1841, 2008 | 249 | 2008 |
| Coacervates as models of membraneless organelles NA Yewdall, AAM André, T Lu, E Spruijt Current Opinion in Colloid & Interface Science 52, 101416, 2021 | 227 | 2021 |
| Linear viscoelasticity of polyelectrolyte complex coacervates E Spruijt, MA Cohen Stuart, J van der Gucht Macromolecules 46 (4), 1633-1641, 2013 | 225 | 2013 |
| Interfacial tension between a complex coacervate phase and its coexisting aqueous phase E Spruijt, J Sprakel, MAC Stuart, J van der Gucht Soft Matter 6 (1), 172-178, 2010 | 223 | 2010 |
| Relaxation dynamics at different time scales in electrostatic complexes: time-salt superposition E Spruijt, J Sprakel, M Lemmers, MAC Stuart, J van der Gucht Physical review letters 105 (20), 208301, 2010 | 221 | 2010 |
| Biomolecular chemistry in liquid phase separated compartments KK Nakashima, MA Vibhute, E Spruijt Frontiers in molecular biosciences 6, 21, 2019 | 212 | 2019 |
| Dissipative adaptation in driven self-assembly leading to self-dividing fibrils E Te Brinke, J Groen, A Herrmann, HA Heus, G Rivas, E Spruijt, ... Nature nanotechnology 13 (9), 849-855, 2018 | 205 | 2018 |
| A short peptide synthon for liquid-liquid phase separation M Abbas, WP Lipiński, KK Nakashima, WTS Huck, E Spruijt Nature Chemistry 13, 2021 | 175 | 2021 |
| Reversible generation of coacervate droplets in an enzymatic network KK Nakashima, JF Baaij, E Spruijt Soft matter 14 (3), 361-367, 2018 | 175 | 2018 |
| Amine-terminated silicon nanoparticles: synthesis, optical properties and their use in bioimaging M Rosso-Vasic, E Spruijt, Z Popović, K Overgaag, B Van Lagen, ... Journal of Materials Chemistry 19 (33), 5926-5933, 2009 | 173 | 2009 |
| Macromolecular crowding creates heterogeneous environments of gene expression in picolitre droplets MMK Hansen, LHH Meijer, E Spruijt, RJM Maas, MV Rosquelles, J Groen, ... Nature nanotechnology 11 (2), 191-197, 2016 | 158 | 2016 |
| Active coacervate droplets are protocells that grow and resist Ostwald ripening KK Nakashima, MHI van Haren, AAM André, I Robu, E Spruijt Nature Communications 12 (1), 3819, 2021 | 143 | 2021 |
| Structure and Dynamics of Polyelectrolyte Complex Coacervates Studied by Scattering of Neutrons, X-rays, and Light E Spruijt, FAM Leermakers, R Fokkink, R Schweins, AA van Well, ... Macromolecules 46 (11), 4596-4605, 2013 | 141 | 2013 |
| On the stability and morphology of complex coacervate core micelles: From spherical to wormlike micelles HM van der Kooij, E Spruijt, IK Voets, R Fokkink, MA Cohen Stuart, ... Langmuir 28 (40), 14180-14191, 2012 | 135 | 2012 |