Your search keyword '"Kronik L"' showing total 3 results

1. Tuning electronic transport via hepta-alanine peptides junction by tryptophan doping.

Author

Guo C, Yu X, Refaely-Abramson S, Sepunaru L, Bendikov T, Pecht I, Kronik L, Vilan A, Sheves M, and Cahen D

Subjects

Electricity, Models, Theoretical, Temperature, Alanine chemistry, Electrons, Peptides chemistry, Tryptophan chemistry

Abstract

Charge migration for electron transfer via the polypeptide matrix of proteins is a key process in biological energy conversion and signaling systems. It is sensitive to the sequence of amino acids composing the protein and, therefore, offers a tool for chemical control of charge transport across biomaterial-based devices. We designed a series of linear oligoalanine peptides with a single tryptophan substitution that acts as a "dopant," introducing an energy level closer to the electrodes' Fermi level than that of the alanine homopeptide. We investigated the solid-state electron transport (ETp) across a self-assembled monolayer of these peptides between gold contacts. The single tryptophan "doping" markedly increased the conductance of the peptide chain, especially when its location in the sequence is close to the electrodes. Combining inelastic tunneling spectroscopy, UV photoelectron spectroscopy, electronic structure calculations by advanced density-functional theory, and dc current-voltage analysis, the role of tryptophan in ETp is rationalized by charge tunneling across a heterogeneous energy barrier, via electronic states of alanine and tryptophan, and by relatively efficient direct coupling of tryptophan to a Au electrode. These results reveal a controlled way of modulating the electrical properties of molecular junctions by tailor-made "building block" peptides., Competing Interests: The authors declare no conflict of interest.

Published

2016

2. Hybrids of organic molecules and flat, oxide-free silicon: high-density monolayers, electronic properties, and functionalization.

Author

Li Y, Calder S, Yaffe O, Cahen D, Haick H, Kronik L, and Zuilhof H

Subjects

Alkylation, Alkynes chemistry, Carbon chemistry, Surface Properties, Electrons, Organic Chemicals chemistry, Silicon chemistry

Abstract

Since the first report of Si-C bound organic monolayers on oxide-free Si almost two decades ago, a substantial amount of research has focused on studying the fundamental mechanical and electronic properties of these Si/molecule surfaces and interfaces. This feature article covers three closely related topics, including recent advances in achieving high-density organic monolayers (i.e., atomic coverage >55%) on oxide-free Si(111) substrates, an overview of progress in the fundamental understanding of the energetics and electronic properties of hybrid Si/molecule systems, and a brief summary of recent examples of subsequent functionalization on these high-density monolayers, which can significantly expand the range of applicability. Taken together, these topics provide an overview of the present status of this active area of research.

Published

2012

3. Chemical Bonding and Many-Body Effects in Site-Specific X-ray Photoelectron Spectra of Corundum V2O3

Author

Kronik, L

Published

2007