Publications

Articles

2022

[1]J. Hunger, J. Schaefer, P. Ober, T. Seki, Y. Wang, L. Prädel, Y. Nagata, M. Bonn, D. J. Bonthuis and E. H. G. Backus; Nature of Cations Critically Affects Water at the Negatively Charged Silica Interface; J. Am. Chem. Soc. 144, 19726-19738 (2022). doi 
[2]P. Loche, L. Scalfi, M. A. Amu, O. Schullian, D. J. Bonthuis, B. Rotenberg and R. R. Netz; Effects of surface rigidity and metallicity on dielectric properties and ion interactions at aqueous hydrophobic interfaces; J. Chem. Phys. 157, 094707 (2022). doi 
[3]P. Loche, D. J. Bonthuis and R. R. Netz; Molecular dynamics simulations of the evaporation of hydrated ions from aqueous solution; Commun. Chem. 5, 55 (2022). doi 
[4]A. Kundu, S. I. Mamatkulov, F. N. Brünig, D. J. Bonthuis, R. R. Netz, T. Elsaesser and B. P. Fingerhut; Short-Range Cooperative Slow-down of Water Solvation Dynamics Around SO42+-Mg2+ Ion Pairs; ACS Phys. Chem Au 2, 506-514 (2022). doi 

2021

[5]M. Rezaei, B. G. Mitterwallner, P. Loche, Y. Uematsu, R. R. Netz and D. J. Bonthuis; Interfacial, Electroviscous, and Nonlinear Dielectric Effects on Electrokinetics at Highly Charged Surfaces; J. Phys. Chem. B 125, 4767-4778 (2021). doi 
[6]P. Müller, D. J. Bonthuis, R. Miller and E. Schneck; Ionic Surfactants at Air/Water and Oil/Water Interfaces: A Comparison Based on Molecular Dynamics Simulations; J. Phys. Chem. B 125, 406-415 (2021). doi 
[7]P. Loche, P. Steinbrunner, S. Friedowitz, R. R. Netz and D. J. Bonthuis; Transferable Ion Force Fields in Water from a Simultaneous Optimization of Ion Solvation and Ion-Ion Interaction; J. Phys. Chem. B 125, 8581-8587 (2021). doi 
[8]S. F. Knowles, N. E. Weckman, V. J. Y. Lim, D. J. Bonthuis, U. F. Keyser and A. L. Thorneywork; Current Fluctuations in Nanopores Reveal the Polymer-Wall Adsorption Potential; Phys. Rev. Lett. 127, 137801 (2021). doi 
[9]M. Kaltenegger, J. Kremser, M. P. K. Frewein, P. Ziherl, D. J. Bonthuis and G. Pabst; Intrinsic lipid curvatures of mammalian plasma membrane outer leaflet lipids and ceramides; BBA - Biomembranes 1863, 183709 (2021). doi 
[10]G. Gonella, E. H. G. Backus, Y. Nagata, D. J. Bonthuis, P. Loche, A. Schlaich, R. R. Netz, A. Kühnle, I. T. McCrum, M. T. M. Koper, M. Wolf, B. Winter, G. Meijer, R. K. Campen and M. Bonn; Water at charged interfaces; Nat. Rev. Chem. 5, 466-485 (2021). doi 

2020

[11]Y. Uematsu, D. J. Bonthuis and R. R. Netz; Nanomolar Surface-Active Charged Impurities Account for the Zeta Potential of Hydrophobic Surfaces; Langmuir 36, 3645-3658 (2020). doi 
[12]H. Elgabarty, T. Kampfrath, D. J. Bonthuis, V. Balos, N. K. Kaliannan, P. Loche, R. R. Netz, M. Wolf, T. D. Kühne and M. Sajadi; Energy transfer within the hydrogen bonding network of water following resonant terahertz excitation; Sci. Adv. 6, eaay7074 (2020). doi 
[13]S. Carlson, F. N. Brünig, P. Loche, D. J. Bonthuis and R. R. Net; Exploring the Absorption Spectrum of Simulated Water from MHz to Infrared; J. Phys. Chem. A 124, 5599-5605 (2020). doi 
[14]V. Balos, S. Imoto, R. R. Netz, M. Bonn, D. J. Bonthuis, Y. Nagata and J. Hunger; Macroscopic conductivity of aqueous electrolyte solutions scales with ultrafast microscopic ion motions; Nat. Commun. 11, 1611 (2020). doi 

2019

[15]Y. Uematsu, D. J. Bonthuis and R. R. Netz; Impurity effects at hydrophobic surfaces; Curr. Opin. Electrochem. 13, 166 (2019). doi 
[16]S. Tottori, K. Misiunas, U. F. Keyser and D. J. Bonthuis; Nonlinear Electrophoresis of Highly Charged Nonpolarizable Particles; Phys. Rev. Lett. 123, 014502 (2019). doi 
[17]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. 123, 049601 (2019). doi 
[18]L. B. Dreier, A. Wolde-Kidan, D. J. Bonthuis, R. R. Netz, E. H.G. Backus and M. Bonn; Unraveling the Origin of the Apparent Charge of Zwitterionic Lipid Layers; J. Phys. Chem. Lett 10, 6355 (2019). doi 

2018

[19]Y. Uematsu, R. R. Netz and D. J. Bonthuis; Analytical Interfacial Layer Model for the Capacitance and Electrokinetics of Charged Aqueous Interfaces; Langmuir 34, 9097 (2018). web  doi 
[20]Y. Uematsu, R. R. Netz, L. Bocquet and D. J. Bonthuis; Crossover of the Power-Law Exponent for Carbon Nanotube Conductivity as a Function of Salinity; J. Phys. Chem. B 122, 2992 (2018). doi 
[21]M. Rezaei, A. R. Azimian, A. R. Pishevara and D. J. Bonthuis; Viscous interfacial layer formation causes electroosmotic mobility reversal in monovalent electrolytes; Phys. Chem. Chem.Phys. 20, 22517 (2018). doi 
[22]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. 9, 6463 (2018). doi 
[23]Y. Uematsu, R. R Netz and D. J. Bonthuis; The effects of ion adsorption on the potential of zero charge and the differential capacitance of charged aqueous interfaces; J. Phys.: Condens. Matter 30, 064002 (2018). doi 
[24]Y. Uematsu, D. J. Bonthuis and R. R. Netz; Charged Surface-Active Impurities at Nanomolar Concentration Induce Jones-Ray Effect; J. Phys. Chem. Lett. 9, 189 (2018). doi 
[25]S. I. Mamatkulov, K. F. Rinne, R. Buchner, R. R. Netz and D. J. Bonthuis; Water-separated ion pairs cause the slow dielectric mode of magnesium sulfate solutions; J. Chem. Phys. 148, 222812 (2018). doi 

2017

[26]S. I. Mamatkulov, C. Allolio, R. R. Netz and D. J. Bonthuis; Orientation-Induced Adsorption of Hydrated Protons at the Air-Water Interface; Angew. Chem. Int. Ed. 56, 15846 (2017). web  doi 
[27]Y. Uematsu, R. R. Netz and D. J. Bonthuis; Power-law electrokinetic behavior as a direct probe of effective surface viscosity; Chem. Phys. Lett. 670, 11 (2017). doi 

2016

[28]M. Zorkot, R. Golestanian and D. J. Bonthuis; Current fluctuations in nanopores: the effects of electrostatic and hydrodynamic interactions; Eur. Phys. J. Special Topics 225, 1583 (2016). web  doi 
[29]M. Zorkot, R. Golestanian and D. J. Bonthuis; The power spectrum of ionic nanopore currents: The role of ion correlations; Nano Lett. 16, 2205 (2016). web  doi 
[30]M. Fukuto, B. M. Ocko, D. J. Bonthuis, R. R. Netz, H.-G. Steinrück, D. Pontoni, I. Kuzmenko, J. Haddad and M. Deutsch; The nanoscale structure of the oil-water interface; Phys. Rev. Lett. 117, 256102 (2016). doi 
[31]D. J. Bonthuis, S. Mamatkulov and R. R. Netz; Optimization of classical nonpolarizable force fields for OH- and H3O+; J. Chem. Phys. 144, 104503 (2016). doi 
[32]D. J. Bonthuis, Y. Uematsu and R. R. Netz; Interfacial layer effects on surface capacitances and electro-osmosis in electrolytes; Phil. Trans. R. Soc. A 374, 20150033 (2016). doi 

2014

[33]D. J. Bonthuis and R. Golestanian; Mechanosensitive channel activation by diffusio-osmotic force; Phys. Rev. Lett. 113, 148101 (2014). pdf  doi 

2013

[34]D. J. Bonthuis and R. R. Netz; Beyond the continuum: How molecular solvent structure affects electrostatics and hydrodynamics at solid-electrolyte interfaces; J. Phys. Chem. B 117, 11397 (2013). web  doi 

2012

[35]D. J. Bonthuis and R. R. Netz; Unraveling the combined effects of dielectric and viscosity profiles on surface capacitance, electro-osmotic mobility, and electric surface conductivity; Langmuir 28, 16049 (2012). pdf  web  doi 
[36]D. J. Bonthuis, S. Gekle and R. R. Netz; Profile of the static permittivity tensor of water at interfaces: Consequences for capacitance, hydration interaction and ion adsorption; Langmuir 28, 7679 (2012). pdf  web  doi 
[37]K. F. Rinne, S. Gekle, D. J. Bonthuis and R. R. Netz; Nanoscale pumping of water by AC electric fields; Nano Lett. 12, 1780 (2012). doi 
[38]R. Vácha, O. Marsalek, A. P. Willard, D. J. Bonthuis, R. R. Netz and P. Jungwirth; Charge transfer between water molecules as the possible origin of the observed charging at the surface of pure water; J. Chem. Phys. Lett. 3, 107 (2012). doi 

2011

[39]D. J. Bonthuis, S. Gekle and R. R. Netz; Dielectric profile of interfacial water and its effect on double-layer capacitance; Phys. Rev. Lett. 107, 166102 (2011). pdf  doi 
[40]D. J. Bonthuis, K. F. Rinne, K. Falk, C. N. Kaplan, D. Horinek, A. N. Berker, L. Bocquet and R. R. Netz; Theory and simulations of water flow through carbon nanotubes: Prospects and pitfalls; J. Phys.: Condens. Matter 23, 184110 (2011). web  doi 

2010

[41]D. J. Bonthuis, K. Falk, C. N. Kaplan, D. Horinek, A. N. Berker, L. Bocquet and R. R. Netz; Comment on "Pumping of confined water in carbon nanotubes by rotation-translation coupling"; Phys. Rev. Lett. 105, 209401 (2010). doi 
[42]D. J. Bonthuis, D. Horinek, L. Bocquet and R. R. Netz; Electrokinetics at aqueous interfaces without mobile charges; Langmuir 26, 12614 (2010). web  doi 

2009

[43]D. J. Bonthuis, D. Horinek, L. Bocquet and R. R. Netz; Electrohydraulic power conversion in planar nanochannels; Phys. Rev. Lett. 103, 144503 (2009). web  doi 

2008

[44]D. J. Bonthuis, C. Meyer, D. Stein and C. Dekker; Conformation and dynamics of DNA confined in slitlike nanofluidic channels; Phys. Rev. Lett. 101, 108303 (2008). doi 
[45]D. Horinek, A. Serr, D. J. Bonthuis, M. Boström, W. Kunz and R. R. Netz; Molecular hydrophobic attraction and ion-specific effects studied by molecular dynamics; Langmuir 24, 1271 (2008). doi 

2007

[46]F. H. J. Van der Heyden, D. J. Bonthuis, D. Stein, C. Meyer and C. Dekker; Power generation by pressure-driven transport of ions in nanofluidic channels; Nano Lett. 7, 1022 (2007). doi 

2006

[47]F. H. J. Van der Heyden, D. J. Bonthuis, D. Stein, C. Meyer and C. Dekker; Electrokinetic energy conversion efficiency in nanofluidic channels; Nano Lett. 6, 2232 (2006). doi 
[48]D. J. Bonthuis, J. Zhang, B. Hornblower, J. Mathé, B. I. Shklovskii and A. Meller; Self-energy-limited ion transport in subnanometer channels; Phys. Rev. Lett. 97, 128104 (2006). doi 

Book chapters

2014

[49]D. J. Bonthuis and R. R. Netz; Dielectric profiles and ion-specific effects at aqueous interfaces; In "Electrostatics of soft and disordered matter", pages 129-142, Pan Stanford Publishing (2014). pdf  web  doi 

Theses

2012

[50]D. J. Bonthuis; Aqueous interfaces: Bridging the gap between molecular and continuum models; Ph.D. thesis, Technische Universität München, 2012. web 

2007

[51]D. J. Bonthuis; Electrokinetic power generation and DNA confinement in nanofluidic channels; Master's thesis, Technische Universiteit Delft, 2007.