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Christoph Hölzl

Showing results (1-10 of 12) with videos related to

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Physical Chemistry Chemical Physics : PCCP|August 9, 2018
Pressure increases the ice-like order of water at hydrophobic interfacesChristoph Hölzl, Dominik Horinek
The Journal of Physical Chemistry. B|July 24, 2025
Static and Dynamic Correlations in Binary and Ternary Mixtures of TMAO, Urea, and WaterChristoph Hölzl, Dominik Horinek
Physical Chemistry Chemical Physics : PCCP|September 15, 2021
Dielectric relaxation of water: assessing the impact of localized modes, translational diffusion, and collective dynamicsChristoph Hölzl, Harald Forbert, Dominik Marx
The Journal of Physical Chemistry. B|May 5, 2018
The Interplay of Methyl-Group Distribution and Hydration Pattern of Isomeric Amphiphilic OsmolytesVira Agieienko, Christoph Hölzl, Dominik Horinek, et al.
ACS Omega|May 31, 2021
Unveiling Zwitterionization of Glycine in the Microhydration LimitRavi Tripathi, Laura Durán Caballero, Ricardo Pérez de Tudela, et al.
Angewandte Chemie (International Ed. in English)|August 18, 2017
The Hydrophobic Gap at High Hydrostatic PressuresFlorian J Wirkert, Christoph Hölzl, Michael Paulus, et al.
Biophysical Chemistry|August 18, 2019
Density variations of TMAO solutions in the kilobar range: Experiments, PC-SAFT predictions, and molecular dynamics simulationsMichael Knierbein, Christoph Held, Christoph Hölzl, et al.
The Journal of Chemical Physics|April 17, 2016
Design principles for high-pressure force fields: Aqueous TMAO solutions from ambient to kilobar pressuresChristoph Hölzl, Patrick Kibies, Sho Imoto, et al.
The Journal of Physical Chemistry Letters|July 21, 2022
Internal Electric Field-Induced Formation of Exotic Linear Acetonitrile ChainsDevendra Mani, Tarun Kumar Roy, Jai Khatri, et al.
Biophysical Chemistry|September 16, 2019
Structure and thermodynamics of aqueous urea solutions from ambient to kilobar pressures: From thermodynamic modeling, experiments, and first principles simulations to an accurate force field descriptionChristoph Hölzl, Patrick Kibies, Sho Imoto, et al.
Pageof 2

Showing results (1-10 of 12) with videos related to

Sort By:
Pageof 2
Physical Chemistry Chemical Physics : PCCP|August 9, 2018
Pressure increases the ice-like order of water at hydrophobic interfacesChristoph Hölzl, Dominik Horinek
The Journal of Physical Chemistry. B|July 24, 2025
Static and Dynamic Correlations in Binary and Ternary Mixtures of TMAO, Urea, and WaterChristoph Hölzl, Dominik Horinek
Physical Chemistry Chemical Physics : PCCP|September 15, 2021
Dielectric relaxation of water: assessing the impact of localized modes, translational diffusion, and collective dynamicsChristoph Hölzl, Harald Forbert, Dominik Marx
The Journal of Physical Chemistry. B|May 5, 2018
The Interplay of Methyl-Group Distribution and Hydration Pattern of Isomeric Amphiphilic OsmolytesVira Agieienko, Christoph Hölzl, Dominik Horinek, et al.
ACS Omega|May 31, 2021
Unveiling Zwitterionization of Glycine in the Microhydration LimitRavi Tripathi, Laura Durán Caballero, Ricardo Pérez de Tudela, et al.
Angewandte Chemie (International Ed. in English)|August 18, 2017
The Hydrophobic Gap at High Hydrostatic PressuresFlorian J Wirkert, Christoph Hölzl, Michael Paulus, et al.
Biophysical Chemistry|August 18, 2019
Density variations of TMAO solutions in the kilobar range: Experiments, PC-SAFT predictions, and molecular dynamics simulationsMichael Knierbein, Christoph Held, Christoph Hölzl, et al.
The Journal of Chemical Physics|April 17, 2016
Design principles for high-pressure force fields: Aqueous TMAO solutions from ambient to kilobar pressuresChristoph Hölzl, Patrick Kibies, Sho Imoto, et al.
The Journal of Physical Chemistry Letters|July 21, 2022
Internal Electric Field-Induced Formation of Exotic Linear Acetonitrile ChainsDevendra Mani, Tarun Kumar Roy, Jai Khatri, et al.
Biophysical Chemistry|September 16, 2019
Structure and thermodynamics of aqueous urea solutions from ambient to kilobar pressures: From thermodynamic modeling, experiments, and first principles simulations to an accurate force field descriptionChristoph Hölzl, Patrick Kibies, Sho Imoto, et al.
Pageof 2