Understanding and Predicting the Formation of Synthetic 2D Materials: From Molecules to Material | CRC1415-C04-MolMat


Funding period:July 1, 2020 to June 30, 2024
Agency: DFG
Funding scheme:Collaborative Research Centers
Further details:https://gepris.dfg.de/gepris/projekt/443840942
Part of the following collaborative project:Collaborative Research Center CRC 1415: Chemistry of synthetic two-dimensional materials

Acknowledgements

We acknowledge funding by the DFG Collaborative Research Centers project "Understanding and Predicting the Formation of Synthetic 2D Materials: From Molecules to Material" (CRC1415-C04-MolMat, grant agreement ID: 443840942)


Description

C04

This project will study the formation of 2D structures starting from chemical precursors. The theoretical analysis is based on a combination of density functional theory (DFT) , molecular dynamics (MD), and kinetic Monte Carlo (kMC) approaches for the calculation of intermolecular interactions and the formation of crystalline 2DMs at interfaces and on substrates. The electro-mechanical properties of 2DMs will be addressed and new organic 2DMs will be designed. In order to facilitate the characterization of 2D structures, scanning tunneling microscopy (STM) images will be calculated beyond the Tersoff-Hamann approach via a non-equilibrium Green function formalism.




Link

Understanding and Predicting the Formation of Synthetic 2D Materials: From Molecules to Material | CRC1415-C04-MolMat


Funding period:July 1, 2020 to June 30, 2024
Agency: DFG
Funding scheme:Collaborative Research Centers
Further details:https://gepris.dfg.de/gepris/projekt/443840942
Part of the following collaborative project:Collaborative Research Center CRC 1415: Chemistry of synthetic two-dimensional materials

Acknowledgements

We acknowledge funding by the DFG Collaborative Research Centers project "Understanding and Predicting the Formation of Synthetic 2D Materials: From Molecules to Material" (CRC1415-C04-MolMat, grant agreement ID: 443840942)


Description

C04

This project will study the formation of 2D structures starting from chemical precursors. The theoretical analysis is based on a combination of density functional theory (DFT) , molecular dynamics (MD), and kinetic Monte Carlo (kMC) approaches for the calculation of intermolecular interactions and the formation of crystalline 2DMs at interfaces and on substrates. The electro-mechanical properties of 2DMs will be addressed and new organic 2DMs will be designed. In order to facilitate the characterization of 2D structures, scanning tunneling microscopy (STM) images will be calculated beyond the Tersoff-Hamann approach via a non-equilibrium Green function formalism.




Link