Publications of Christina Scheu
All genres
Journal Article (12)
1.
Journal Article
15 (39), pp. 46064 - 46073 (2023)
Effect of Heat Treatment Temperature on the Crystallization Behavior and Microstructural Evolution of Amorphous NbCo1.1Sn. ACS Applied Materials and Interfaces 2.
Journal Article
249, 118816 (2023)
Fe segregation as a tool to enhance electrical conductivity of grain boundaries in Ti(Co,Fe)Sb half Heusler thermoelectrics. Acta Materialia 3.
Journal Article
35 (24), 2300586 (2023)
Tailoring the Plasticity of Topologically Close-Packed Phases via the Crystals’ Fundamental Building Blocks. Advanced Materials 4.
Journal Article
936, 168296 (2023)
Preferred corrosion pathways for oxygen in Al2Ca – twin boundaries and dislocations. Journal of Alloys and Compounds 5.
Journal Article
Stability and Failure Mechanisms of Al2O3|Al Bilayer Coatings Exposed to 300 Bar Hydrogen at 673 K. Advanced Engineering Materials, 2300619 (2023)
6.
Journal Article
47 (8), pp. 371 - 378 (2022)
Exploring stability of a complex solid solution thin film by in-situ heating transmission electron microscopy. MRS Bulletin 7.
Journal Article
144 (2), pp. 987 - 994 (2022)
Understanding Alkali Contamination in Colloidal Nanomaterials to Unlock Grain Boundary Impurity Engineering. Journal of the American Chemical Society 8.
Journal Article
14 (48), pp. 18192 - 18199 (2022)
Atomistic structures of〈0001〉tilt grain boundaries in a textured Mg thin film. Nanoscale 9.
Journal Article
217, 117147 (2021)
Dopant-segregation to grain boundaries controls electrical conductivity of η-type NbCo(Pt)Sn half-Heusler alloy mediating thermoelectric performance. Acta Materialia 10.
Journal Article
234 (4), pp. 683 - 698 (2020)
Sn-Doped Hematite for Photoelectrochemical Water Splitting: The Effect of Sn Concentration. Zeitschrift für physikalische Chemie 11.
Journal Article
9, 8266 (2019)
Remote Tracking of Phase Changes in Cr2AlC Thin Films by In-situ Resistivity Measurements. Scientific Reports 12.
Journal Article
142, pp. 203 - 211 (2018)
Modifying the nanostructure and the mechanical properties of Mo2BC hard coatings: Influence of substrate temperature during magnetron sputtering. Materials and Design