Single Molecule Plasmoelectronics
Lead Research Organisation:
Durham University
Department Name: Chemistry
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
Organisations
People |
ORCID iD |
Andrew Beeby (Principal Investigator) |
Publications
Bara-Estaún A
(2023)
Single-Molecule Conductance Behavior of Molecular Bundles.
in Inorganic chemistry
Davidson R
(2018)
Emission Tuning of Ir(N ? C) 2 (pic)-Based Complexes via Torsional Twisting of Picolinate Substituents
in Organometallics
Davidson R
(2016)
The use of organolithium reagents for the synthesis of 4-aryl-2-phenylpyridines and their corresponding iridium(iii) complexes.
in Dalton transactions (Cambridge, England : 2003)
Davidson R
(2017)
Exploring the Chemistry and Photophysics of Substituted Picolinates Positional Isomers in Iridium(III) Bisphenylpyridine Complexes
in Organometallics
Davidson R
(2018)
Highly Linearized Twisted Iridium(III) Complexes.
in Inorganic chemistry
Davidson RJ
(2018)
Conductance of 'bare-bones' tripodal molecular wires.
in RSC advances
Escorihuela E
(2024)
Large area arrays of discrete single-molecule junctions derived from host-guest complexes
in Nanoscale
Herrer L
(2019)
Electrically transmissive alkyne-anchored monolayers on gold.
in Nanoscale
Liang J
(2016)
Electrochemically grafted single molecule junctions exploiting a chemical protection strategy
in Electrochimica Acta
Markin A
(2020)
Conductance Behavior of Tetraphenyl-Aza-BODIPYs
in The Journal of Physical Chemistry C
Description | We have created a series of materials for evaluation as single molecule conductors, including multi-podal molecules. These have been investigated by our collaborators and their single-molecule conductance measured. Interestingly a study of a series of tripodal molecules show a systematic structure-conductance trend allowing in depth understanding of the conductance mechanism. The program is has now come to an end although some tests and measurements investigating materials and thier plasmonic effects are still ongoing at Liverpool. |
Exploitation Route | The work is creating important insights into the phenomenon of molecular wires. Our outputs are being used by and cited by workers in the field. |
Sectors | Electronics Other |