Soft Matter Publications

Related Publications

[1]

P. A. Sanchez, A. Cerrato, J. J. Cerda, C. Bona-Casas, T. Sintes, and J. Masso, Dynamic response of a ferromagnetic nanofilament under rotating fields: Effects of flexibility, thermal fluctuations and hydrodynamics (vol 16, pg 11724,2024), NANOSCALE 17, 4809 (2025).

[2]

J. Batle, A. Bednorz, and J. J. Cerda, Stability of classical planar dipole matter on regular and aperiodic lattices, FRONTIERS OF PHYSICS 20, (2025).

[3]

A. Fuster-Aparisi, A. Cerrato, J. Batle, and J. J. Cerda, Dipolar Brush Polymers: A Numerical Study of the Force Exerted onto a Penetrating Colloidal Particle Under an External Field, POLYMERS 17, (2025).

[4]

J. J. Cerda, J. Batle, C. Bona-Casas, J. Masso, and T. Sintes, Depletion Interactions at Interfaces Induced by Ferromagnetic Colloidal Polymers, POLYMERS 16, (2024).

[5]

[6]

J. J. Cerda, C. Bona-Casas, A. Cerrato, T. Sintes, and J. Masso, Colloidal magnetic brushes: Influence of the magnetic content and presence of short-range attractive forces in the micro-structure and field response, SOFT MATTER 17, 5780 (2021).

[7]

J. Batle, J. J. Cerda, and M. Pons, Classical Analog of Quantum Light Cones in 1D and 2D Dipole Systems, ANNALEN DER PHYSIK 533, (2021).

[8]

P. A. Sanchez, V. Novak Ekaterina, E. S. Pyanzina, S. S. Kantorovich, J. J. Cerda, and T. Sintes, Adsorption transition of a grafted ferromagnetic filament controlled by external magnetic fields, PHYSICAL REVIEW E 102, (2020).

[9]

J. J. Cerda, C. Bona-Casas, A. Cerrato, V. Novak Ekaterina, E. S. Pyanzina, P. A. Sanchez, S. Kantorovich, and T. Sintes, Magnetic responsive brushes under flow in strongly confined slits: External field control of brush structure and flowing particle mixture separation, SOFT MATTER 15, 8982 (2019).

[10]

E. V. Novak, E. S. Pyanzina, D. A. Rozhkov, M. Ronti, J. J. Cerda, T. Sintes, P. A. Sanchez, and S. S. Kantorovich, Suspensions of supracolloidal magnetic polymers: Self-assembly properties from computer simulations, JOURNAL OF MOLECULAR LIQUIDS 271, 631 (2018).

[11]

D. A. Rozhkov, E. S. Pyanzina, E. V. Novak, J. J. Cerda, T. Sintes, M. Ronti, P. A. Sanchez, and S. S. Kantorovich, Self-assembly of polymer-like structures of magnetic colloids: Langevin dynamics study of basic topologies, MOLECULAR SIMULATION 44, 507 (2018).

[12]

E. S. Pyanzina, P. A. Sanchez, J. J. Cerda, T. Sintes, and S. S. Kantorovich, Scattering properties and internal structure of magnetic filament brushes, SOFT MATTER 13, 2590 (2017).

[13]

M. E. A. Bassalah, J. J. Cerda, T. Sintes, A. Aschi, and T. Othman, Complex between cationic like-charged polyelectrolytes/surfactants systems, EUROPEAN POLYMER JOURNAL 96, 55 (2017).

[14]

D. Lusebrink, J. J. Cerda, P. A. Sanchez, S. S. Kantorovich, and T. Sintes, The behavior of a magnetic filament in flow under the influence of an external magnetic field, JOURNAL OF CHEMICAL PHYSICS 145, (2016).

[15]

J. J. Cerda, P. A. Sanchez, D. Lusebrink, S. Kantorovich, and T. Sintes, Flexible magnetic filaments under the influence of external magnetic fields in the limit of infinite dilution, PHYSICAL CHEMISTRY CHEMICAL PHYSICS 18, 12616 (2016).

[16]

P. A. Sanchez, E. S. Pyanzina, E. V. Novak, J. J. Cerda, T. Sintes, and S. S. Kantorovich, Magnetic filament brushes: Tuning the properties of a magnetoresponsive supracolloidal coating, FARADAY DISCUSSIONS 186, 241 (2016).

[17]

P. A. Sanchez, E. S. Pyanzina, E. V. Novak, J. J. Cerda, T. Sintes, and S. S. Kantorovich, Supramolecular Magnetic Brushes: The Impact of Dipolar Interactions on the Equilibrium Structure, MACROMOLECULES 48, 7658 (2015).

[18]

P. A. Sanchez, J. J. Cerda, T. M. Sintes, A. O. Ivanov, and S. S. Kantorovich, The effect of links on the interparticle dipolar correlations in supramolecular magnetic filaments, SOFT MATTER 11, 2963 (2015).

[19]

F. Barcelo, J. J. Cerda, A. Gutierrez, T. Jimenez-Marco, M. Antonia Duran, A. Novo, T. Ros, A. Sampol, and J. Portugal, Characterization of Monoclonal Gammopathy of Undetermined Significance by Calorimetric Analysis of Blood Serum Proteome, PLOS ONE 10, (2015).

[20]

P. A. Sanchez, J. J. Cerda, T. Sintes, and C. Holm, Effects of the dipolar interaction on the equilibrium morphologies of a single supramolecular magnetic filament in bulk, JOURNAL OF CHEMICAL PHYSICS 139, (2013).

[21]

J. J. Cerda, P. A. Sanchez, C. Holm, and T. Sintes, Phase diagram for a single flexible Stockmayer polymer at zero field, SOFT MATTER 9, 7185 (2013).

[22]

E. S. Minina, A. B. Muratova, J. J. Cerda, and S. S. Kantorovich, Microstructure of bidisperse ferrofluids in a thin layer, JOURNAL OF EXPERIMENTAL AND THEORETICAL PHYSICS 116, 424 (2013).

[23]

V. Ballenegger, J. J. Cerda, and C. Holm, How to Convert SPME to P3M: Influence Functions and Error Estimates, JOURNAL OF CHEMICAL THEORY AND COMPUTATION 8, 936 (2012).

[24]

A. Dobroserdova, E. Minina, J. J. Cerda, C. Holm, and S. Kantorovich, Microstructure of Bidisperse Ferrofluids in a Monolayer, in MAGNETISM AND MAGNETIC MATERIALS v, edited by N. Perov and V. Rodionova, Vol. 190 (2012), pp. 625–+.

[25]

P. A. Sanchez, J. J. Cerda, V. Ballenegger, T. Sintes, O. Piro, and C. Holm, Semiflexible magnetic filaments near attractive flat surfaces: A Langevin dynamics study, SOFT MATTER 7, 1809 (2011).

[26]

J. J. Cerda, V. Ballenegger, and C. Holm, Particle-particle particle-mesh method for dipolar interactions: On error estimates and efficiency of schemes with analytical differentiation and mesh interlacing, JOURNAL OF CHEMICAL PHYSICS 135, (2011).

[27]

V. Ballenegger, J. J. Cerda, and C. Holm, Removal of spurious self-interactions in particle-mesh methods, COMPUTER PHYSICS COMMUNICATIONS 182, 1919 (2011).

[28]

J. J. Cerda, E. Elfimova, V. Ballenegger, E. Krutikova, A. Ivanov, and C. Holm, Study of the structure factor anisotropy and long range correlations of ferrofluids in the dilute low-coupling regime, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS 323, 1246 (2011).

[29]

S. Kantorovich, R. Weeber, J. J. Cerda, and C. Holm, Magnetic particles with shifted dipoles, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS 323, 1269 (2011).

[30]

E. Pyanzina, S. Kantorovich, J. J. Cerda, and C. Holm, Structure factor of ferrofluids with chain aggregates: Theory and computer simulations, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS 323, 1263 (2011).

[31]

S. Kantorovich, R. Weeber, J. J. Cerda, and C. Holm, Ferrofluids with shifted dipoles: Ground state structures, SOFT MATTER 7, 5217 (2011).

[32]

J. J. Cerda, C. Holm, and K. Kremer, Novel Simulation Approaches for Polymeric and Soft Matter Systems, MACROMOLECULAR THEORY AND SIMULATIONS 20, 444 (2011).

[33]

B. Qiao, J. J. Cerda, and C. Holm, Atomistic Study of Surface Effects on Polyelectrolyte Adsorption: Case Study of a Poly(styrenesulfonate) Monolayer, MACROMOLECULES 44, 1707 (2011).

[34]

J. J. Cerda, E. Elfimova, V. Ballenegger, E. Krutikova, A. Ivanov, and C. Holm, Behavior of bulky ferrofluids in the diluted low-coupling regime: Theory and simulation, PHYSICAL REVIEW E 81, (2010).

[35]

E. Minina, S. Kantorovich, J. Cerda, and C. Holm, Bidisperse Monolayers: Theory and Computer Simulations, in 12TH INTERNATIONAL CONFERENCE ON MAGNETIC FLUIDS ICMF12, edited by H. Yamaguchi, Vol. 9 (2010), pp. 87–90.

[36]

B. Qiao, J. J. Cerda, and C. Holm, Poly(styrenesulfonate)-poly(diallyldimethylammonium) Mixtures: Toward the Understanding of Polyelectrolyte Complexes and Multilayers via Atomistic Simulations, MACROMOLECULES 43, 7828 (2010).

[37]

E. Pyanzina, S. Kantorovich, J. J. Cerda, A. Ivanov, and C. Holm, How to analyse the structure factor in ferrofluids with strong magnetic interactions: A combined analytic and simulation approach, MOLECULAR PHYSICS 107, 571 (2009).

[38]

J. J. Cerda, T. Sintes, and R. Toral, Spherical brushes within spherical cavities: A self-consistent field and Monte Carlo study, JOURNAL OF CHEMICAL PHYSICS 131, (2009).

[39]

J. J. Cerda, B. Qiao, and Ch. Holm, Modeling strategies for polyelectrolyte multilayers, EUROPEAN PHYSICAL JOURNAL-SPECIAL TOPICS 177, 129 (2009).

[40]

V. Ballenegger, A. Arnold, and J. J. Cerda, Simulations of non-neutral slab systems with long-range electrostatic interactions in two-dimensional periodic boundary conditions, JOURNAL OF CHEMICAL PHYSICS 131, (2009).

[41]

J. J. Cerda, B. Qiao, and C. Holm, Understanding polyelectrolyte multilayers: An open challenge for simulations, SOFT MATTER 5, 4412 (2009).

[42]

J. J. Cerda, V. Ballenegger, O. Lenz, and C. Holm, P<SUP>3</SUP>m algorithm for dipolar interactions, JOURNAL OF CHEMICAL PHYSICS 129, (2008).

[43]

J. J. Cerda, T. Sintes, C. Holm, C. M. Sorensen, and A. Chakrabarti, Shear effects on crystal nucleation in colloidal suspensions, PHYSICAL REVIEW E 78, (2008).

[44]

J. J. Cerda, S. Kantorovich, and C. Holm, Aggregate formation in ferrofluid monolayers:: Simulations and theory, JOURNAL OF PHYSICS-CONDENSED MATTER 20, (2008).

[45]

V. Ballenegger, J. J. Cerda, O. Lenz, and Ch. Holm, The optimal P3M algorithm for computing electrostatic energies in periodic systems, JOURNAL OF CHEMICAL PHYSICS 128, (2008).

[46]

S. Kantorovich, J. J. Cerda, and C. Holm, Microstructure analysis of monodisperse ferro fluid monolayers:: Theory and simulation, PHYSICAL CHEMISTRY CHEMICAL PHYSICS 10, 1883 (2008).

[47]

J. Cerda, T. Sintes, and K. Sumithra, Adsorption of semiflexible block copolymers on homogeneous surfaces -: Art. No. 204703, JOURNAL OF CHEMICAL PHYSICS 123, (2005).

[48]

J. Cerda and T. Sintes, Stiff polymer adsorption.: Onset to pattern recognition, BIOPHYSICAL CHEMISTRY 115, 277 (2005).

[49]

J. Cerda, T. Sintes, and A. Chakrabarti, Excluded volume effects on polymer chains confined to spherical surfaces, MACROMOLECULES 38, 1469 (2005).

[50]

J. Cerda, T. Sintes, C. Sorensen, and A. Chakrabarti, Structure factor scaling in colloidal phase separation -: Art. No. 051405, PHYSICAL REVIEW E 70, (2004).

[51]

J. Cerda, T. Sintes, C. Sorensen, and A. Chakrabarti, Kinetics of phase transformations in depletion-driven colloids -: Art. No. 011405, PHYSICAL REVIEW E 70, (2004).

[52]

J. Cerda, T. Sintes, and R. Toral, Pair interaction between end-grafted polymers onto spherical surfaces:: A Monte Carlo study, MACROMOLECULES 36, 1407 (2003).