Alexander Schlaich

Publications

2020

  1. P. Loche, C. Ayaz, A. Wolde-Kidan, A. Schlaich, and R. R. Netz, “Universal and Nonuniversal Aspects of Electrostatics in Aqueous Nanoconfinement,” J. Phys. Chem. B, vol. 124, no. 21, pp. 4365–4371, May 2020. [WEB][DOI]
  2. J. C. F. Schulz, A. Schlaich, M. Heyden, R. R. Netz, and J. Kappler, “Molecular interpretation of the non-Newtonian viscoelastic behavior of liquid water at high frequencies,” arXiv:2003.08309 [cond-mat, physics:physics], 2020. [WEB]
  3. A. Schlaich, D. Jin, L. Bocquet, and B. Coasne, “Wetting transition of ionic liquids at metal surfaces: A computational approach to electronic screening using a virtual Thomas-Fermi fluid,” arXiv:2002.11526 [cond-mat, physics:physics], 2020. [WEB]

2019

  1. P. Loche, C. Ayaz, A. Schlaich, Y. Uematsu, and R. R. Netz, “Giant Axial Dielectric Response in Water-Filled Nanotubes and Effective Electrostatic Ion–Ion Interactions from a Tensorial Dielectric Model,” J. Phys. Chem. B, vol. 123, no. 50, pp. 10850–10857, Dec. 2019. [WEB][DOI]
  2. A. Wolde-Kidan, Q. D. Pham, A. Schlaich, P. Loche, E. Sparr, R. R. Netz, and E. Schneck, “Influence of polar co-solutes and salt on the hydration of lipid membranes,” Phys. Chem. Chem. Phys., vol. 21, no. 31, pp. 16989–17000, Aug. 2019. [WEB][DOI]
  3. B. Kowalik, J. O. Daldrop, J. Kappler, J. C. F. Schulz, A. Schlaich, and R. R. Netz, “Memory-kernel extraction for different molecular solutes in solvents of varying viscosity in confinement,” Phys. Rev. E, vol. 100, no. 1, p. 012126, Jul. 2019. [WEB][DOI]
  4. P. Loche, A. Wolde-Kidan, A. Schlaich, D. J. Bonthuis, and R. R. Netz, “Comment on ’Hydrophobic Surface Enhances Electrostatic Interaction in Water,’” Phys. Rev. Lett., vol. 123, no. 4, p. 049601, Jul. 2019. [WEB][DOI]
  5. A. Schlaich and B. Coasne, “Dispersion truncation affects the phase behavior of bulk and confined fluids: Coexistence, adsorption, and criticality,” J. Chem. Phys., vol. 150, no. 15, p. 154104, Apr. 2019. [WEB][DOI]
  6. A. Schlaich, A. P. dos Santos, and R. R. Netz, “Simulations of Nanoseparated Charged Surfaces Reveal Charge-Induced Water Reorientation and Nonadditivity of Hydration and Mean-Field Electrostatic Repulsion,” Langmuir, vol. 35, no. 2, pp. 551–560, Jan. 2019. [WEB][DOI]

2018

  1. P. Loche, C. Ayaz, A. Schlaich, D. J. Bonthuis, and R. R. Netz, “Breakdown of Linear Dielectric Theory for the Interaction between Hydrated Ions and Graphene,” J. Phys. Chem. Lett., vol. 9, no. 22, pp. 6463–6468, Nov. 2018. [WEB][DOI]
  2. Q. D. Pham, A. Wolde-Kidan, A. Gupta, A. Schlaich, E. Schneck, R. R. Netz, and E. Sparr, “Effects of Urea and TMAO on Lipid Self-Assembly under Osmotic Stress Conditions,” J. Phys. Chem. B, vol. 122, no. 25, pp. 6471–6482, Jun. 2018. [WEB][DOI]

2017

  1. A. Schlaich, J. Kappler, and R. R. Netz, “Hydration Friction in Nanoconfinement: From Bulk via Interfacial to Dry Friction,” Nano Lett., vol. 17, no. 10, pp. 5969–5976, Oct. 2017. [WEB][DOI]
  2. B. Kowalik, A. Schlaich, M. Kanduč, E. Schneck, and R. R. Netz, “Hydration Repulsion Difference between Ordered and Disordered Membranes Due to Cancellation of Membrane–Membrane and Water-Mediated Interactions,” J. Phys. Chem. Lett., pp. 2869–2874, Jun. 2017. [WEB][DOI]
  3. M. Kanduč, A. Schlaich, A. H. de Vries, J. Jouhet, E. Maréchal, B. Demé, R. R. Netz, and E. Schneck, “Tight cohesion between glycolipid membranes results from balanced water–headgroup interactions,” Nat. Commun., vol. 8, p. 14899, Apr. 2017. [WEB][DOI]

2016

  1. M. Kanduč, A. Schlaich, E. Schneck, and R. R. Netz, “Water-Mediated Interactions between Hydrophilic and Hydrophobic Surfaces,” Langmuir, vol. 32, no. 35, pp. 8767–8782, Sep. 2016. [WEB][DOI]
  2. A. Schlaich, E. W. Knapp, and R. R. Netz, “Water Dielectric Effects in Planar Confinement,” Phys. Rev. Lett., vol. 117, no. 4, p. 048001, Jul. 2016. [WEB][DOI]

Older

  1. A. Schlaich, B. Kowalik, M. Kanduč, E. Schneck, and R. R. Netz, “Physical mechanisms of the interaction between lipid membranes in the aqueous environment,” Physica A, vol. 418, pp. 105–125, Jan. 2015. [WEB][DOI]
  2. M. Kanduč, A. Schlaich, E. Schneck, and R. R. Netz, “Hydration repulsion between membranes and polar surfaces: Simulation approaches versus continuum theories,” Adv. Colloid Interface Sci., vol. 208, pp. 142–152, Jun. 2014. [WEB][DOI]

Book Chapters

  1. M. Kanduč, A. Schlaich, B. Kowalik, A. Wolde-Kidan, R. R. Netz, and E. Schneck, “Simulation Approaches to Short-Range Interactions Between Lipid Membranes,” in Biomembrane Simulations: Computational Studies of Biological Membranes, Portland, USA: CRC Press, 2019. [WEB]
  2. A. Schlaich, B. Kowalik, M. Kanduč, E. Schneck, and R. R. Netz, “Simulation Techniques for Solvation-Induced Surface-Interactions at Prescribed Water Chemical Potential,” in Computational Trends in Solvation and Transport in Liquids, vol. 28, G. Sutmann, J. Grotendorst, G. Gompper, and D. Marx, Eds. Jülich: Forschungszentrum Jülich GmbH, 2015, pp. 155–185. [WEB]
  3. M. Kanduč, A. Schlaich, E. Schneck, and R. R. Netz, “Interactions between biological membranes: Theoretical concepts,” in Soft Interfaces, no. 98, Lydéric Bocquet, David Quéré, Thomas A. Witten, and Leticia F. Cugliandolo, Eds. Oxford: Oxford University Press, 2012. [WEB]

Theses

  1. A. Schlaich, “Water effects on the interaction and friction between polar surfaces,” PhD thesis, Freie Universität Berlin, Germany, 2017. [WEB]
  2. A. Schlaich, “An iterative Poisson Boltzmann solver for regions with dielectric mismatch,” Diploma Thesis, Universität Stuttgart, Germany, 2011. [WEB]