Preprints

2021

[23] Network architecture determines vein fate during spontaneous reorganization, with a time delay S. Marbach, N. Ziethen, L. Bastin, F. Bauerle, K. Alim bioRxiv preprint 10.1101/2021.12.29.474405v1

[22] Can mass change the diffusion coefficient of DNA-coated colloids? S. Marbach, J. A. Zheng, M. Holmes-Cerfon arXiv preprint arXiv:2112.05266

Peer-Reviewed Publications

2022

[21] Comprehensive view of microscopic interactions between DNA-coated colloids F. Cui, S. Marbach, J. A. Zheng, M. Holmes-Cerfon, D. J. Pine https://arxiv.org/abs/2110.03112 to appear in Nature Comm.

[20] Electroosmosis in nanopores: Computational methods and technological applications A. Gubbiotti, M. Baldelli, G. Di Muccio, P. Malgaretti, S. Marbach, M. Chinappi arXiv preprint arXiv:2111.05786 to appear in Advances in Physics: X

[19] The Nanocaterpillar's Random Walk: Diffusion With Ligand-Receptor Contacts S. Marbach, J. A. Zheng, M. Holmes-Cerfon arXiv preprint arXiv:2110.03112 to appear in Soft Matter DOI D1SM01544C

2021

[18] The carbon footprint of meat and dairy proteins: a practical perspective to guide low carbon footprint dietary choices R. Gaillac, S. Marbach J. Clean Prod. 321 128766

[17] Intrinsic fractional noise in nanopores: The effect of reservoirs S. Marbach J. Chem. Phys. 154 (17), 171101

2020

[16] Local and global force balance for diffusiophoretic transport S. Marbach, H. Yoshida, L. Bocquet, J. Fluid. Mech. 892

[15] Resonant osmosis across active switchable membranes S. Marbach, N. Kavokine, L. Bocquet, J. Chem. Phys. 152 054704

2019

[14] Ionic Coulomb blockade as a fractional Wien effect N. Kavokine, S. Marbach, A. Siria, L. Bocquet, Nature Nano.

[13] Osmosis, from molecular insights to large-scale applications S. Marbach, L. Bocquet, Chem. Soc. Rev. 48 (11) 3102-3144

[12] Active control of dispersion within a channel with flow and pulsating walls S. Marbach, K. Alim, Phys. Rev. Fluids 4 114202

2018

[11] Transport and dispersion across wiggling nanopores S. Marbach, D. S. Dean, L. Bocquet, Nature Phys. 14 1108–1113

2017

[10] Active sieving across driven nanopores for tunable selectivity S. Marbach, L. Bocquet, J Chem. Phys. 147 (15) 154701

[9] The Landau–Squire plume E. Secchi, S. Marbach, A. Niguès, A. Siria, L. Bocquet, J. Fluid Mech. 826

[8] Osmotic and diffusio-osmotic flow generation at high solute concentration. I. Mechanical approaches S. Marbach, H. Yoshida, L. Bocquet, J. Chem. Phys. 146 (19) 194701

[7] Osmotic and diffusio-osmotic flow generation at high solute concentration. II. Molecular dynamics simulations H. Yoshida, S. Marbach, L. Bocquet, J. Chem. Phys. 146 (19) 194702

2016

[6] Pruning to Increase Taylor Dispersion in Physarum polycephalum Networks S. Marbach, K. Alim, N. Andrew, A. Pringle, M. P. Brenner, Phys. Rev. Lett. 117 (17) 178103

[5] Massive radius-dependent flow slippage in carbon nanotubes E. Secchi, S. Marbach, A. Niguès, D. Stein, A. Siria, L. Bocquet, Nature 537 (7619) 210

[4] Active Osmotic Exchanger for Efficient Nanofiltration Inspired by the Kidney S. Marbach, L. Bocquet, Phys. Rev. X 6 (3) 031008

2015

[3] Theoretical study of actin layers attachment and separation S. Marbach, A. L. Godeau, D. Riveline, J.-F. Joanny, J. Prost, Euro. Phys. J. E 38 (11) 122

[2] Femtosecond-laser hyperdoping silicon in an SF6 atmosphere: Dopant incorporation mechanism M.-J. Sher, N. M. Mangan, M. J. Smith, Y.-T. Lin, S. Marbach, T. M. Schneider, S. Gradecak, M. P. Brenner, E. Mazur J. Appl. Phys. 117 125301

[1] Creating femtosecond-laser-hyperdoped silicon with a homogeneous doping profile Y.-T. Lin, N. M. Mangan, S. Marbach, T. M. Schneider, G. Deng, S. Zhou, M. P. Brenner, E. Mazur Appl. Phys. Lett. 106 062105