Publications of Björn Bieniek

Journal Article (4)

2022
Journal Article
Carbogno, Christian, Kristian Sommer Thygesen, Björn Bieniek, Claudia Draxl, Luca M. Ghiringhelli, Andris Gulans, Oliver T. Hofmann, Karsten W. Jacobsen, Sven Lubeck, Jens Jørgen Mortensen, Mikkel Strange, Elisabeth Wruss and Matthias Scheffler: Numerical quality control for DFT-based materials databases.
2018
Journal Article
Specht, Judith F., Eike Verdenhalven, Björn Bieniek, Patrick Rinke, Andreas Knorr and Marten Richter: Theory of Excitation Transfer between Two-Dimensional Semiconductor and Molecular Layers.
2015
Journal Article
Bieniek, Björn, Oliver T. Hofmann and Patrick Rinke: Influence of hydrogen on the structure and stability of ultra-thin ZnO on metal substrates.
2014
Journal Article
Verdenhalven, Eike, Andreas Knorr, Marten Richter, Björn Bieniek and Patrick Rinke: Theory of optical excitations in dipole-coupled hybrid molecule-semiconductor layers: Coupling of a molecular resonance to semiconductor continuum states.

Talk (4)

2016
Talk
Bieniek, Björn: Numerical Quality Control in Computational Materials Databases.
(Hands-on workshop and Humboldt-Kolleg: Density-Functional Theory and Beyond - Basic Principles and Modern Insights, Isfahan, Iran, May 2016).
2014
Talk
Bieniek, Björn: HDF5 and ESP-Charges in FHI-aims.
(DFT and Beyond with Numeric Atom-Centered Orbitals, FHI-aims Developers' and Users' Meeting , Berlin, Germany, Aug 2014).
Talk
Bieniek, Björn, Oliver T. Hofmann, Patrick Rinke and Matthias Scheffler: Ultra-Thin ZnO on Metal Substrates: Electronic Structure and Thermodynamic Stability.
(International Workshop, White Nights of Materials Science: From Physics and Chemistry to Data Analysis, and Back, St. Petersburg, Russia, Jun 2014).
2012
Talk
Bieniek, Björn: Ultra-thin ZnO films on metal substrates from first principle.
(International Workshop "Frontiers in Computational Material Science,” Ringberg Castle, Germany, Jul 2012).

Thesis - PhD (1)

2016
Thesis - PhD
Bieniek, Björn: Ultra thin ZnO on metal substrates: An ab initio study.
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