Light Emission From Single Self Decoupled Molecules In A Scanning Tunnelling Microscope
Download Light Emission From Single Self Decoupled Molecules In A Scanning Tunnelling Microscope PDF/ePub or read online books in Mobi eBooks. Click Download or Read Online button to get Light Emission From Single Self Decoupled Molecules In A Scanning Tunnelling Microscope book now. This website allows unlimited access to, at the time of writing, more than 1.5 million titles, including hundreds of thousands of titles in various foreign languages.
Light Emission from Single Self-decoupled Molecules in a Scanning Tunnelling Microscope
Author: Rai, Vibhuti Narayan
language: en
Publisher: KIT Scientific Publishing
Release Date: 2022-10-04
In this work, a clear pathway is presented to achieve well-defined electronically decoupled chromophores from metallic leads without requiring additional insulating layers. To study such self-decoupled molecules, STM equipped with an efficient light detection setup has been used. Results show that the chromophores mounted on tripodal molecular platforms adsorbed on a gold surface present well-defined and efficient electroluminescence down to the single-molecule level.
Light Emission from Single Self-decoupled Molecules in a Scanning Tunnelling Microscope
In this work, a clear pathway is presented to achieve well-defined electronically decoupled chromophores from metallic leads without requiring additional insulating layers. To study such self-decoupled molecules, STM equipped with an efficient light detection setup has been used. Results show that the chromophores mounted on tripodal molecular platforms adsorbed on a gold surface present well-defined and efficient electroluminescence down to the single-molecule level.
Molecular Motor Based on Single Chiral Tripodal Molecules Studied with STM
Author: Skolaut, Julian
language: en
Publisher: KIT Scientific Publishing
Release Date: 2023-09-14
This work presents a single molecular motor driven by the current in an STM. Its chiral functional group is supposed to perform a rotation in a preferred direction, proven by Binomial tests to be statistically significant. The rotation is proposedly driven by the chiral-induced spin selectivity effect (CISS). However, the studies of the rotation on the dependence on the lateral tip position, voltage and current indicate that he CISS is unlikely to cause the preferred rotation direction.