Journal Article (85)
81.
Journal Article
High-speed scanning tunneling microscope technique and its application in studying structural dynamics on surfaces. Progress in Surface Science, 100744 (2024)
82.
Journal Article
Structural and chemical transformations of CuZn alloy nanoparticles under reactive redox atmospheres: an in situ TEM study. Nano Research (2024)
83.
Journal Article
222, 118998 (2024)
Insights into the role of defects on the Raman spectroscopy of carbon nanotube and biomass-derived carbon. Carbon 84.
Journal Article
15 (18), pp. 4928 - 4932 (2024)
Importance of Metal-Support Interactions for CO2 Hydrogenation: An Operando Near-Ambient Pressure X-ray Photoelectron Spectroscopy Study on Gold-Loaded In2O3 and CeO2 Catalysts. The Journal of Physical Chemistry Letters 85.
Journal Article
8 (3), 034602 (2024)
Polar discontinuity governs surface segregation and interface termination: A case study of LaInO3 /BaSnO3. Physical Review Materials Book Chapter (6)
86.
Book Chapter
X-ray photoelectron spectroscopy meets electrochemistry: From UHV to operando conditions. In: Encyclopedia of Solid-Liquid Interfaces, 1. ed. Ed., pp. 283 - 299. Elsevier, Amsterdam (2024)
87.
Book Chapter
Soft X-ray absorption spectroscopy at the liquid-solid interface. In: Encyclopedia of Solid-Liquid Interfaces, 1. ed. Ed., pp. 173 - 191. Elsevier, Amsterdam (2024)
88.
Book Chapter
X-ray standing-wave spectroscopy: A powerful method for probing buried interfaces. In: Encyclopedia of Solid-Liquid Interfaces, 1. ed. Ed., pp. 324 - 335. Elsevier, Amsterdam (2024)
89.
Book Chapter
In Situ Investigation of Catalytic Interfaces by Scanning Probe Microscopy under Electrochemical Conditions. In: Encyclopedia of Solid-Liquid Interfaces, 1st Ed. Ed., pp. 656 - 680 (Eds. Wandelt, K.; Bussetti, G.). Elsevier, Amsterdam (2024)
90.
Book Chapter
Electron microscopy of liquid–solid interfaces. In: Encyclopedia of Solid-Liquid Interfaces, 1. ed. Ed., pp. 368 - 379. Elsevier, Amsterdam (2024)
91.
Book Chapter
Operando Studies of Electrocatalysts for Energy Technology Reactions. In: Operando Methods in Catalysis and Materials Science, pp. 11 - 111 (Eds. Weckhuysen , B. M.; Nieuwelink, A.-E.). Willey-VCH (2024)
Thesis - PhD (4)
92.
Thesis - PhD
Structure and Energetics of Metal-Water Interfaces from Atomistic Simulations. Dissertation, Technische Universität, München (2024)
93.
Thesis - PhD
Machine learning and reaction dynamics: From spectroscopic constants of diatomic molecules to buffer gas chemistry. Dissertation, Freie Universität, Berlin (2024)
94.
Thesis - PhD
Fluctuations and exciton dynamics in molecular semiconductors. Dissertation, Technische Universität, Berlin (2024)
95.
Thesis - PhD
Sum-frequency generation microscopy: infrared sub-diffractional imaging of surface phonon polaritons. Dissertation, Freie Universität, Berlin (2024)
Working Paper (6)
96.
Working Paper
Roadmap on Data-Centric Materials Science. (2024)
97.
Working Paper
CO Oxidation Catalyzed by Perovskites: The Role of Crystallographic Distortions Highlighted by Systematic Experiments and AI. (2024)
98.
Working Paper
Coherent Collections of Rules Describing Exceptional Materials Identified with a Multi-Objective Optimization of Subgroups. (2024)
99.
Working Paper
Efficient All-electron Hybrid Density Functionals for Atomistic Simulations Beyond 10,000 Atoms. (2024)
100.
Working Paper
Coherent Modulation of Two-Dimensional Moiré States with On-Chip THz Waves. (2024)