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Publications

No. of Publications: 42

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Quantification of finite-temperature effects on adsorption geometries of π-conjugated molecules: Azobenzene/Ag(111)

Quantification of finite-temperature effects on adsorption geometries of π-conjugated molecules: Azobenzene/Ag(111)

G. Mercurio, R. J. Maurer, W. Liu, S. Hagen, F. Leyssner, P. Tegeder, J. Meyer, A. Tkatchenko, S. Soubatch, K. Reuter, F. S. Tautz, Phys. Rev. B 88, 035421 (2013)

We obtain the adsorption structure of Azobenzene on Ag(111) with simulation and experiment by accounting for anharmonic temperature effects


Excited-state potential-energy surfaces of metal-adsorbed organic molecules from linear expansion Δ-self-consistent field density-functional theory (ΔSCF-DFT)

Excited-state potential-energy surfaces of metal-adsorbed organic molecules from linear expansion Δ-self-consistent field density-functional theory (ΔSCF-DFT)

R. J. Maurer, K. Reuter, J. Chem. Phys. 139, 014708 (2013)

We implement and test a method to efficiently calculate excited states of organic molecules on metal surfaces.


Molecular simulation of surface reorganization and wetting in crystalline cellulose I and II

Molecular simulation of surface reorganization and wetting in crystalline cellulose I and II

R. J. Maurer, A. F.. Sax, V. Ribitsch, Cellulose 20, 25-42 (2013)

Reconstruction and wetting of cellulose strongly modifies the hydrogen bonding network

Thu 12 Oct 2017, 20:16 | Tags: cellulose surface, molecular dynamics

Bistability Loss as a Key Feature in Azobenzene (Non-)Switching on Metal Surfaces

Bistability Loss as a Key Feature in Azobenzene (Non-)Switching on Metal Surfaces

R. J. Maurer, K. Reuter, Angew. Chem. Int. Ed. 51, 12009-12011(2012)

We identify the reason for loss of switching function on metal surfaces as loss of stability

Thu 12 Oct 2017, 19:57 | Tags: metal surface, Azobenzene, Molecular Switches

Assessing computationally efficient isomerization dynamics: ΔSCF density-functional theory study of azobenzene molecular switching

Assessing computationally efficient isomerization dynamics: ΔSCF density-functional theory study of azobenzene molecular switching

R. J. Maurer, K. Reuter, J. Chem. Phys. 135, 224303 (2011)

Proving the ability of the ΔSCF method to describe azobenzene cis-trans switching


Molecular Dynamics of cellulose crystal surfaces with ChemShell

Molecular Dynamics of cellulose crystal surfaces with ChemShell

R. J. Maurer, A. F. Sax, Procedia Comput. Sci. 1, 1149-1154 (2010)

Studying the reconstruction of cellulose crystal surfaces with the ChemShell package

Thu 12 Oct 2017, 19:40 | Tags: cellulose surface, molecular dynamics

Solvation of carbon nanotubes by aniline calculated with density functional tight binding

Solvation of carbon nanotubes by aniline calculated with density functional tight binding

Reinhard J. Maurer, Alexander F. Sax, Phys. Chem. Chem. Phys. 12, 9893-9899 (2010)

A study of carbon nanotube solubility in aniline using DFTB shows the reason for poor nanotube solubility.

Thu 12 Oct 2017, 19:31 | Tags: Carbon Nanotubes, Density Functional Tight-Binding

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