Article first published online: 20 FEB 2015Understanding the electronic properties of single peptides is not only of fundamental importance, but it is also paramount to the realization of peptide-based molecular electronic components. Electrochemical and theoretical studies are reported on two β-strand-based peptides, one with its backbone constrained with a triazole-containing tether introduced by Huisgen cycloaddition (peptide 1) and the other a direct linear analogue (peptide 2). Density functional theory (DFT) and non-equilibrium Green's function were used to investigate conductance in molecular junctions containing peptides 3 and 4 (analogues of 1 and 2). Although the peptides share a common β-strand conformation, they display vastly d...
Bioelectronic materials interface biomolecules, cells, organs, or organisms with electronic devices,...
Recent advances in nanofabrication techniques have made possible to contact individual molecules bet...
The helical peptide Cys-Ala-Lys-(Glu-Ala-Ala-Ala-Lys)2-Ala-NH-(CH2)2-SH has been organized forming a...
Electrochemical studies are reported on a series of peptides constrained into either a 3(10)-helix (...
Electrochemical studies are reported on a series of peptides constrained into either a 310-helix (1-...
Research undertaken in this thesis focuses on electron transfer in peptides constrained into either ...
Electrochemical studies are reported on a series of peptides constrained into either a 3<sub>10</sub...
The primary sequence and secondary structure of a peptide are crucial to charge migration, not only ...
Non-adiabatic charge transfer (CT) is one of the simplest but very important (if not the most import...
We report on charge transport across single short peptides using the Mechanically Controlled Break J...
This study examines quantitative correlations between molecular conductances and standard electroche...
Many novel applications in bioelectronics rely on the interaction between biomolecules and electroni...
Accepted 29th November 2016Electron transfer in peptides provides an opportunity to mimic nature for...
The preparation of the β-peptides PCB-β3Val- β3Ala-β3Leu-NHC(CH3) 2OOtBu and PCB-(β3Val-β3Ala- β3Leu...
Understanding the electronic properties of single peptides is not only of fundamental importance to ...
Bioelectronic materials interface biomolecules, cells, organs, or organisms with electronic devices,...
Recent advances in nanofabrication techniques have made possible to contact individual molecules bet...
The helical peptide Cys-Ala-Lys-(Glu-Ala-Ala-Ala-Lys)2-Ala-NH-(CH2)2-SH has been organized forming a...
Electrochemical studies are reported on a series of peptides constrained into either a 3(10)-helix (...
Electrochemical studies are reported on a series of peptides constrained into either a 310-helix (1-...
Research undertaken in this thesis focuses on electron transfer in peptides constrained into either ...
Electrochemical studies are reported on a series of peptides constrained into either a 3<sub>10</sub...
The primary sequence and secondary structure of a peptide are crucial to charge migration, not only ...
Non-adiabatic charge transfer (CT) is one of the simplest but very important (if not the most import...
We report on charge transport across single short peptides using the Mechanically Controlled Break J...
This study examines quantitative correlations between molecular conductances and standard electroche...
Many novel applications in bioelectronics rely on the interaction between biomolecules and electroni...
Accepted 29th November 2016Electron transfer in peptides provides an opportunity to mimic nature for...
The preparation of the β-peptides PCB-β3Val- β3Ala-β3Leu-NHC(CH3) 2OOtBu and PCB-(β3Val-β3Ala- β3Leu...
Understanding the electronic properties of single peptides is not only of fundamental importance to ...
Bioelectronic materials interface biomolecules, cells, organs, or organisms with electronic devices,...
Recent advances in nanofabrication techniques have made possible to contact individual molecules bet...
The helical peptide Cys-Ala-Lys-(Glu-Ala-Ala-Ala-Lys)2-Ala-NH-(CH2)2-SH has been organized forming a...