Your search keyword '"Rosaleny LE"' showing total 2 results

1. Towards peptide-based tunable multistate memristive materials.

Author

Cardona-Serra S, Rosaleny LE, Giménez-Santamarina S, Martínez-Gil L, and Gaita-Ariño A

Subjects

Amino Acid Sequence, Base Sequence, Lanthanoid Series Elements chemistry, Metalloproteins chemistry, Neural Networks, Computer, Peptides chemistry

Abstract

Development of new memristive hardware is a technological requirement towards widespread neuromorphic computing. Molecular spintronics seems to be a fertile field for the design and preparation of this hardware. Within molecular spintronics, recent results on metallopeptides demonstrating the interaction between paramagnetic ions and the chirality induced spin selectivity effect hold particular promise for developing fast (ns-μs) operation times. [R. Torres-Cavanillas et al., J. Am. Chem. Soc., 2020, DOI: 10.1021/jacs.0c07531]. Among the challenges in the field, a major highlight is the difficulty in modelling the spin dynamics in these complex systems, but at the same time the use of inexpensive methods has already allowed progress in that direction. Finally, we discuss the unique potential of biomolecules for the design of multistate memristors with a controlled- and indeed, programmable-nanostructure, allowing going beyond anything that is conceivable by employing conventional coordination chemistry.

Published

2021

2. A first peek into sub-picosecond dynamics of spin energy levels in magnetic biomolecules.

Author

Rosaleny LE, Zinovjev K, Tuñón I, and Gaita-Ariño A

Subjects

Magnetic Phenomena, Time Factors, Vibration, Metalloproteins chemistry, Molecular Dynamics Simulation, Thermodynamics

Abstract

We estimate the time- and temperature-evolution of spin energy levels in a metallopeptide by combining molecular dynamics with crystal field analysis. Fluctuations of tens of cm -1 for spin energy levels at fs times gradually average out at longer times. We confirm that local vibrations are key in spin dynamics.

Published

2019