Publications of Christin Büchner
All genres
Journal Article (21)
2022
Journal Article
Christin Büchner, Markus Heyde, Hans-Joachim Freund, and : , , Variation of bending rigidity with material density: bilayer silica with nanoscale holes.
2018
Journal Article
Büchner, Christin, , , David Kuhness, , , , Markus Heyde, and Hans-Joachim Freund: Bending Rigidity of 2D Silica.
2017
Journal Article
Büchner, Christin and Markus Heyde: Two-dimensional silica opens new perspectives.
Journal Article
Burson, Kristen, Christin Büchner, Markus Heyde and Hans-Joachim Freund: Assessing the amorphousness and periodicity of common domain boundaries in silica bilayers on Ru(0 0 0 1).
2016
Journal Article
Büchner, Christin, , Stefanie Stuckenholz, Kristen Burson, Leonid Lichtenstein, Markus Heyde, and Hans-Joachim Freund: Building block analysis of 2D amorphous networks reveals medium range correlation.
Journal Article
Büchner, Christin, Zhu-Jun Wang, Kristen Burson, Marc Georg Willinger, Markus Heyde, Robert Schlögl and Hans-Joachim Freund: A Large-Area Transferable Wide Band Gap 2D Silicon Dioxide Layer.
Journal Article
Burson, Kristen, , Burkhard Kell, Christin Büchner, Adrian Lewandowski, Markus Heyde and Hans-Joachim Freund: Resolving Amorphous Solid-Liquid Interfaces by Atomic Force Microscopy.
Journal Article
Stuckenholz, Stefanie, Christin Büchner, Hendrik Ronneburg, Gero Thielsch, Markus Heyde and Hans-Joachim Freund: Apparatus for Low Temperature Thermal Desorption Spectroscopy of Portable Samples.
2015
Journal Article
Burson, Kristen, , Christin Büchner, Leonid Lichtenstein, Markus Heyde and Hans-Joachim Freund: Characterizing Crystalline-Vitreous Structures: From Atomically Resolved Silica to Macroscopic Bubble Rafts.
Journal Article
Stuckenholz, Stefanie, Christin Büchner, Markus Heyde and Hans-Joachim Freund: MgO on Mo(001): Local Work Function Measurements above Pristine Terrace and Line Defect Sites.
2014
Journal Article
Büchner, Christin, Leonid Lichtenstein, Stefanie Stuckenholz, Markus Heyde, Franziska Ringleb, Martin Sterrer, William Kaden, , and Hans-Joachim Freund: Adsorption of Au and Pd on Ruthenium-Supported Bilayer Silica.
Journal Article
Büchner, Christin, Leonid Lichtenstein, Xin Yu, Jorge Anibal Boscoboinik, Bing Yang, William Kaden, Markus Heyde, Shamil K. Shaikhutdinov, , , and Hans-Joachim Freund: Ultrathin Silica Films: The Atomic Structure of Two-Dimensional Crystals and Glasses.
Journal Article
Büchner, Christin, , Leonid Lichtenstein, Stefanie Stuckenholz, Markus Heyde and Hans-Joachim Freund: Topological Investigation of Two-dimensional Amorphous Materials.
Journal Article
Kaden, William, Christin Büchner, Leonid Lichtenstein, Stefanie Stuckenholz, Franziska Ringleb, Markus Heyde, Martin Sterrer, Hans-Joachim Freund, , , and : Understanding surface core-level shifts using the Auger parameter: A study of Pd atoms adsorbed on ultrathin SiO2 films.
Journal Article
Kaden, William, Christin Büchner, Leonid Lichtenstein, Stefanie Stuckenholz, Franziska Ringleb, Markus Heyde, Martin Sterrer, Hans-Joachim Freund, , , and : Exploring the binding mechanisms and physical properties of Pd and Au atoms over thin-film SiO2/Ru(0001) supports.
2013
Journal Article
Stuckenholz, Stefanie, Christin Büchner, Gero Thielsch, Markus Heyde and Hans-Joachim Freund: A portable quartz micro balance for physical vapor deposition techniques.
2012
Journal Article
Büchner, Christin, Leonid Lichtenstein and Markus Heyde: Ein glasklares Modell.
Journal Article
Lichtenstein, Leonid, Christin Büchner, Stefanie Stuckenholz, Markus Heyde and Hans-Joachim Freund: Enhanced atomic corrugation in dynamic force microscopy - The role of repulsive forces.
Journal Article
Lichtenstein, Leonid, Christin Büchner, Bing Yang, Shamil K. Shaikhutdinov, Markus Heyde, , , and Hans-Joachim Freund: The atomic structure of a metal-supported vitreous thin silica film.
Journal Article
Lichtenstein, Leonid, Christin Büchner, Bing Yang, Shamil K. Shaikhutdinov, Markus Heyde, , , and Hans-Joachim Freund: Die atomare Struktur eines metallgestützten glasartigen dünnen Silikafilms.