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Philip Loche

Showing results (1-10 of 27) with videos related to

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The Journal of Chemical Physics|December 31, 2022
Electrokinetic, electrochemical, and electrostatic surface potentials of the pristine water liquid-vapor interfaceMaximilian R Becker, Philip Loche, Roland R Netz
Communications Chemistry|January 25, 2023
Molecular dynamics simulations of the evaporation of hydrated ions from aqueous solutionPhilip Loche, Douwe J Bonthuis, Roland R Netz
Journal of Chemical Information and Modeling|November 30, 2023
Revealing the Formation Dynamics of Janus Polymer Particles: Insights from Experiments and Molecular DynamicsMiroslava Nedyalkova, Giovanni Russo, Philip Loche, et al.
The Journal of Physical Chemistry Letters|October 20, 2023
Physics-Inspired Equivariant Descriptors of Nonbonded InteractionsKevin K Huguenin-Dumittan, Philip Loche, Ni Haoran, et al.
The Journal of Physical Chemistry. B|November 26, 2019
Giant Axial Dielectric Response in Water-Filled Nanotubes and Effective Electrostatic Ion-Ion Interactions from a Tensorial Dielectric ModelPhilip Loche, Cihan Ayaz, Alexander Schlaich, et al.
Faraday Discussions|September 25, 2024
Prediction rigidities for data-driven chemistrySanggyu Chong, Filippo Bigi, Federico Grasselli, et al.
The Journal of Physical Chemistry. B|May 5, 2020
Universal and Nonuniversal Aspects of Electrostatics in Aqueous NanoconfinementPhilip Loche, Cihan Ayaz, Amanuel Wolde-Kidan, et al.
The Journal of Physical Chemistry. B|July 22, 2021
Transferable Ion Force Fields in Water from a Simultaneous Optimization of Ion Solvation and Ion-Ion InteractionPhilip Loche, Patrick Steinbrunner, Sean Friedowitz, et al.
The Journal of Physical Chemistry Letters|November 2, 2018
Breakdown of Linear Dielectric Theory for the Interaction between Hydrated Ions and GraphenePhilip Loche, Cihan Ayaz, Alexander Schlaich, et al.
Physical Review Letters|September 7, 2019
Comment on "Hydrophobic Surface Enhances Electrostatic Interaction in Water"Philip Loche, Amanuel Wolde-Kidan, Alexander Schlaich, et al.
Pageof 3

Showing results (1-10 of 27) with videos related to

Sort By:
Pageof 3
The Journal of Chemical Physics|December 31, 2022
Electrokinetic, electrochemical, and electrostatic surface potentials of the pristine water liquid-vapor interfaceMaximilian R Becker, Philip Loche, Roland R Netz
Communications Chemistry|January 25, 2023
Molecular dynamics simulations of the evaporation of hydrated ions from aqueous solutionPhilip Loche, Douwe J Bonthuis, Roland R Netz
Journal of Chemical Information and Modeling|November 30, 2023
Revealing the Formation Dynamics of Janus Polymer Particles: Insights from Experiments and Molecular DynamicsMiroslava Nedyalkova, Giovanni Russo, Philip Loche, et al.
The Journal of Physical Chemistry Letters|October 20, 2023
Physics-Inspired Equivariant Descriptors of Nonbonded InteractionsKevin K Huguenin-Dumittan, Philip Loche, Ni Haoran, et al.
The Journal of Physical Chemistry. B|November 26, 2019
Giant Axial Dielectric Response in Water-Filled Nanotubes and Effective Electrostatic Ion-Ion Interactions from a Tensorial Dielectric ModelPhilip Loche, Cihan Ayaz, Alexander Schlaich, et al.
Faraday Discussions|September 25, 2024
Prediction rigidities for data-driven chemistrySanggyu Chong, Filippo Bigi, Federico Grasselli, et al.
The Journal of Physical Chemistry. B|May 5, 2020
Universal and Nonuniversal Aspects of Electrostatics in Aqueous NanoconfinementPhilip Loche, Cihan Ayaz, Amanuel Wolde-Kidan, et al.
The Journal of Physical Chemistry. B|July 22, 2021
Transferable Ion Force Fields in Water from a Simultaneous Optimization of Ion Solvation and Ion-Ion InteractionPhilip Loche, Patrick Steinbrunner, Sean Friedowitz, et al.
The Journal of Physical Chemistry Letters|November 2, 2018
Breakdown of Linear Dielectric Theory for the Interaction between Hydrated Ions and GraphenePhilip Loche, Cihan Ayaz, Alexander Schlaich, et al.
Physical Review Letters|September 7, 2019
Comment on "Hydrophobic Surface Enhances Electrostatic Interaction in Water"Philip Loche, Amanuel Wolde-Kidan, Alexander Schlaich, et al.
Pageof 3