AnalysisofMolecularLigand FunctionalizationProcessinNano Molecular Electronic Devices Containing DenselyPackedNano-Particle Functionalization Shells.
magazine aldhakwat albedh
2024, Volume المؤتمر العلمي السابع لحملة الشهادات العليا, Issue 2, Pages 232-251
2024, Volume المؤتمر العلمي السابع لحملة الشهادات العليا, Issue 2, Pages 232-251
Abstract
This study aims to investigate the molecular ligand functionalization process in nano- molecular electronic devices containing densely packed nanoparticle functionalization shells. The research focuses on understanding the effects of ligand functionalization on device properties, including electrical conductivity, stability, and performance. Key factors such as ligand type, density, and nanoparticle size were analyzed to optimize the functionalization process. The results suggest that tailored ligand functionalization plays a crucial role in improving the properties of nano-molecular electronic devices and has potential applications in various fields, including sensors, solar cells, and nanoelectronics
Keywords
Nano-molecular electronic devices, Molecular ligand functionalization, Nano-particle functionalization shells, Computational modelling, Density functional theory calculations, Molecular dynamics simulations, Ligand size and shape, Ligand compositionMetrics