Publications

Belova V, Jankowski M, Saedi M, Groot IMN, Renaud G, Konovalov OV.  2023.  Employing Surface Curvature for Spatially Resolved X‐Ray Reflectivity: Graphene Domains on Liquid Copper. Advanced Materials Interfaces.

Saedi M, Mohseni SMajid, Groot IMN.  2022.  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.

Konovalov OV, Belova V, La Porta F, Saedi M, Groot IMN, Renaud G, Snigireva I, Snigirev A, Voevodina M, Shen C et al..  2022.  X-ray reflectivity from curved surfaces as illustrated by a graphene layer on molten copper. J. Synchrotron Radiation. 29

Gao H, Belova V, La Porta F, Cingolani JSantiago, Andersen M, Saedi M, Konovalov OV, Jankowski M, Heenen HH, Groot IMN et al..  2022.  Graphene at Liquid Copper Catalysts: Atomic‐Scale Agreement of Experimental and First‐Principles Adsorption Height. Advanced Science. 2204684.

Tsakonas C, Dimitropoulos M, Manikas AC, Galiotis C.  2021.  Growth and in situ characterization of 2D materials by chemical vapour deposition on liquid metal catalysts: a review. Nanoscale. Advance Article

Tsakonas C, Manikas A, Andersen M, Dimitropoulos M, Reuter K, Galiotis C.  2021.  In situ kinetic studies of CVD graphene growth by reflection spectroscopy.

Jankowski M, Saedi M, La Porta F, Manikas AC, Tsakonas C, Cingolani JS, Andersen M, de Voogd M, van Baarle GJC, Reuter K et al..  2021.  Real-Time Multiscale Monitoring and Tailoring of Graphene Growth on Liquid Copper. ACS Nano. 15(6) 9638-9648.

Saedi M, de Voogd J.M, Sjardin A., Manikas A., Galiotis C., Jankowski M., Renaud G., La Porta F., Konovalov O., van Baarle G.JC et al..  2020.  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.

Saedi M., Groot I.M.N., van Baarle G.J.C., de Voogd J.M., Sjardin A..  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.

Cingolani JSantiago, Deimel M, Köcher S, Scheurer C, Reuter K, Andersen M.  2020.  Interface between graphene and liquid Cu from molecular dynamics simulations. The Journal of Chemical Physics . 153(7)

Andersen M, Cingolani JSantiago, Reuter K.  2019.  Ab Initio Thermodynamics of Hydrocarbons Relevant to Graphene Growth at Solid and Liquid Cu Surfaces. The Journal of Physical Chemistry C. 123

Andersen M, Panosetti C, Reuter K.  2019.  A Practical Guide to Surface Kinetic Monte Carlo Simulations. Frontiers in Chemistry. 7