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D Bratko

Showing results (1-10 of 14) with videos related to

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The Journal of Chemical Physics|October 15, 2024
Dynamic permittivity of confined water under a static background fieldD Bratko, N Mulpuri
The Journal of Chemical Physics|April 8, 2023
Polarity-dependence of the nonlinear dielectric response in interfacial waterN Mulpuri, D Bratko
Physical Chemistry Chemical Physics : PCCP|January 18, 2022
Correction: Reversible electrowetting transitions on superhydrophobic surfacesD Vanzo, A Luzar, D Bratko
Physical Chemistry Chemical Physics : PCCP|November 30, 2021
Reversible electrowetting transitions on superhydrophobic surfacesD Vanzo, A Luzar, D Bratko
The Journal of Chemical Physics|February 25, 2014
Nanoconfined water under electric field at constant chemical potential undergoes electrostrictionDavide Vanzo, D Bratko, Alenka Luzar
The Journal of Chemical Physics|July 23, 2004
Electrostatic interactions of charged dipolar proteins in reverse micellesJ Piñero, L B Bhuiyan, D Bratko
Proceedings of the National Academy of Sciences of the United States of America|December 23, 1998
Interaction between like-charged colloidal spheres in electrolyte solutionsJ Wu, D Bratko, J M Prausnitz
The Journal of Chemical Physics|May 3, 2019
Molecular polarizability in open ensemble simulations of aqueous nanoconfinements under electric fieldF Moučka, S Zamfir, D Bratko, et al.
Physical Chemistry Chemical Physics : PCCP|November 7, 2018
Electrokinetic flow of an aqueous electrolyte in amorphous silica nanotubesChristopher D Daub, Natalie M Cann, D Bratko, et al.
The Journal of Physical Chemistry. B|December 27, 2005
Specific ion effects in solutions of globular proteins: comparison between analytical models and simulationM Boström, F W Tavares, D Bratko, et al.
Pageof 2

Showing results (1-10 of 14) with videos related to

Sort By:
Pageof 2
The Journal of Chemical Physics|October 15, 2024
Dynamic permittivity of confined water under a static background fieldD Bratko, N Mulpuri
The Journal of Chemical Physics|April 8, 2023
Polarity-dependence of the nonlinear dielectric response in interfacial waterN Mulpuri, D Bratko
Physical Chemistry Chemical Physics : PCCP|January 18, 2022
Correction: Reversible electrowetting transitions on superhydrophobic surfacesD Vanzo, A Luzar, D Bratko
Physical Chemistry Chemical Physics : PCCP|November 30, 2021
Reversible electrowetting transitions on superhydrophobic surfacesD Vanzo, A Luzar, D Bratko
The Journal of Chemical Physics|February 25, 2014
Nanoconfined water under electric field at constant chemical potential undergoes electrostrictionDavide Vanzo, D Bratko, Alenka Luzar
The Journal of Chemical Physics|July 23, 2004
Electrostatic interactions of charged dipolar proteins in reverse micellesJ Piñero, L B Bhuiyan, D Bratko
Proceedings of the National Academy of Sciences of the United States of America|December 23, 1998
Interaction between like-charged colloidal spheres in electrolyte solutionsJ Wu, D Bratko, J M Prausnitz
The Journal of Chemical Physics|May 3, 2019
Molecular polarizability in open ensemble simulations of aqueous nanoconfinements under electric fieldF Moučka, S Zamfir, D Bratko, et al.
Physical Chemistry Chemical Physics : PCCP|November 7, 2018
Electrokinetic flow of an aqueous electrolyte in amorphous silica nanotubesChristopher D Daub, Natalie M Cann, D Bratko, et al.
The Journal of Physical Chemistry. B|December 27, 2005
Specific ion effects in solutions of globular proteins: comparison between analytical models and simulationM Boström, F W Tavares, D Bratko, et al.
Pageof 2