Supramolecular Nanorings for Exploring Quantum Interference
Lead Research Organisation:
University of Liverpool
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.
Publications
Xu W
(2019)
Unusual Length Dependence of the Conductance in Cumulene Molecular Wires.
in Angewandte Chemie (International ed. in English)
Herrer IL
(2018)
Unconventional Single-Molecule Conductance Behavior for a New Heterocyclic Anchoring Group: Pyrazolyl.
in The journal of physical chemistry letters
Escorihuela E
(2020)
Towards the design of effective multipodal contacts for use in the construction of Langmuir-Blodgett films and molecular junctions
in Journal of Materials Chemistry C
Milan DC
(2017)
The single-molecule electrical conductance of a rotaxane-hexayne supramolecular assembly.
in Nanoscale
Zotti LA
(2020)
Taming quantum interference in single molecule junctions: induction and resonance are key.
in Physical chemistry chemical physics : PCCP
Naghibi S
(2019)
Synthetic Control of Quantum Interference by Regulating Charge on a Single Atom in Heteroaromatic Molecular Junctions.
in The journal of physical chemistry letters
Nichols R
(2021)
STM studies of electron transfer through single molecules at electrode-electrolyte interfaces
in Electrochimica Acta
Naher M
(2021)
Molecular Structure-(Thermo)electric Property Relationships in Single-Molecule Junctions and Comparisons with Single- and Multiple-Parameter Models.
in Journal of the American Chemical Society
Leary E
(2021)
Long-lived charged states of single porphyrin-tape junctions under ambient conditions.
in Nanoscale horizons
Wu C
(2020)
In situ formation of H-bonding imidazole chains in break-junction experiments.
in Nanoscale
Ferri N
(2019)
Hemilabile Ligands as Mechanosensitive Electrode Contacts for Molecular Electronics.
in Angewandte Chemie (International ed. in English)
Ferri N
(2019)
Hemilabile Ligands as Mechanosensitive Electrode Contacts for Molecular Electronics
in Angewandte Chemie
Herrer L
(2019)
Electrically transmissive alkyne-anchored monolayers on gold.
in Nanoscale
Leary E
(2018)
Detecting Mechanochemical Atropisomerization within an STM Break Junction
in Journal of the American Chemical Society
Alanazy A
(2019)
Cross-conjugation increases the conductance of meta-connected fluorenones.
in Nanoscale
Davidson RJ
(2018)
Conductance of 'bare-bones' tripodal molecular wires.
in RSC advances
Markin A
(2020)
Conductance Behavior of Tetraphenyl-Aza-BODIPYs
in The Journal of Physical Chemistry C
Escorihuela E
(2022)
Building large-scale unimolecular scaffolding for electronic devices
in Materials Today Chemistry
Leary E
(2018)
Bias-Driven Conductance Increase with Length in Porphyrin Tapes.
in Journal of the American Chemical Society
Xu W
(2021)
A Peierls Transition in Long Polymethine Molecular Wires: Evolution of Molecular Geometry and Single-Molecule Conductance.
in Journal of the American Chemical Society
Wu C
(2020)
A Chemically Soldered Polyoxometalate Single-Molecule Transistor.
in Angewandte Chemie (International ed. in English)
Vezzoli A
(2020)
A Chemically Soldered Polyoxometalate Single-Molecule Transistor
Wu C
(2020)
A Chemically Soldered Polyoxometalate Single-Molecule Transistor
in Angewandte Chemie
Description | We have achieved enhanced understanding of charge flow through porphyrin molecular wires. This includes the unique discovery of bias voltage driven conductance increases with length in porphyrin tapes. We have detected mechanochemical atropisomerization within an STM break junction containing porphyrin molecular wires. We have extended single molecule conductance measurements to supra-molecular assemblies including porphyrin nano-rings synthesised by our collaborators. Our collaborating partner has also demonstrated quantum interference in porphyrin nanorings through EPR measurements. In addition, we have studied quantum interference effects in other conjugated systems, such as how cross-conjugation increases the conductance of meta-connected fluorenones and the unusual length dependence of the conductance in cumulene molecular wires. |
Exploitation Route | This project is providing insights into quantum interference which may be valuable in the field of nano-electronic devices and molecular electronics. |
Sectors | Chemicals,Education,Electronics |
Description | University of Madrid |
Organisation | Autonomous University of Madrid |
Country | Spain |
Sector | Academic/University |
PI Contribution | Collaboration in single molecule electronics |
Collaborator Contribution | Collaboration in single molecule electronics |
Impact | Publications in preparation. |
Start Year | 2015 |