Publications
Tripling of the scattering vector range of X-ray reflectivity on liquid surfaces using a double-crystal deflector. Journal of Applied Crystallography. 57(2) 258-265. .
2024.
In situ characterisation of graphene growth on liquid copper-gallium alloys: Paving the path for cost-effective synthesis. Applied Surface Science. 657 159723. .
2024.
Mechanical Integrity and Reinforcement Efficiency of Graphene Grown on Liquid Copper by Chemical Vapor Deposition. Advanced Materials Interface. 11 .
2024.
Operando Characterization and Molecular Simulations Reveal the Growth Kinetics of Graphene on Liquid Copper During Chemical Vapor Deposition. ACS Nano. 18(19) 12503-12511. .
2024.
Employing Surface Curvature for Spatially Resolved X‐Ray Reflectivity: Graphene Domains on Liquid Copper. Advanced Materials Interfaces. .
2023.
Thermodynamic analysis of graphene CVD grown on liquid metal: Growth on liquid metallic gallium or solid gallium oxide skin? Materials Chemistry and Physics. 275 125203. .
2022.
X-ray reflectivity from curved surfaces as illustrated by a graphene layer on molten copper. J. Synchrotron Radiation. 29 .
2022.
Graphene at Liquid Copper Catalysts: Atomic‐Scale Agreement of Experimental and First‐Principles Adsorption Height. Advanced Science. 2204684. .
2022.
Growth and in situ characterization of 2D materials by chemical vapour deposition on liquid metal catalysts: a review. Nanoscale. Advance Article .
2021.
In situ kinetic studies of CVD graphene growth by reflection spectroscopy. .
2021.
Real-Time Multiscale Monitoring and Tailoring of Graphene Growth on Liquid Copper. ACS Nano. 15(6) 9638-9648. .
2021.
Development of a reactor for the in situ monitoring of 2D materials growth on liquid metal catalysts, using synchrotron x-ray scattering, Raman spectroscopy, and optical microscopy. Review of Scientific Instruments. 91(1) 013907. .
2020.
Protection of sensitive components against thermal radiation, hot gas, and deposition of materials emitted by a hot object, using a specifically designed gas flow pattern. .
2020.
Interface between graphene and liquid Cu from molecular dynamics simulations. The Journal of Chemical Physics . 153(7) .
2020.
Ab Initio Thermodynamics of Hydrocarbons Relevant to Graphene Growth at Solid and Liquid Cu Surfaces. The Journal of Physical Chemistry C. 123 .
2019.
A Practical Guide to Surface Kinetic Monte Carlo Simulations. Frontiers in Chemistry. 7 .
2019.