Publications

[2025]

[1]  Identifying Clean and Contaminated Atomic-Sized Gold Contacts under Ambient Conditions Using a Clustering Algorithm

G. Pellicer, C. Sabater

Processes 13 (7), 2061  https://doi.org/10.3390/pr13072061 

[2] Exploring Three-Atom-Thick Gold Structures as a Benchmark for Atomic-Scale Calibration of Break-Junction Systems

J.P. Cuenca, T. de Ara, A. Martinez-Garcia, E. Guzman, C. Sabater

PRM  (in review)     https://doi.org/10.48550/arXiv.2503.00161

[3] PORTAMUESTRAS DE MICROSCOPIOS DE EFECTO TÚNEL

J.P. Cuenca, E. Guzman, C. Sabater

Numero de solicitud de patente P202430886 (in review)

[2024]

[1] Magnetic field dependence of the atomic and electronic structure of monovalent metallic nanocontacts unveiled in transport experiments 

B. Wu, A. Martinez-Garcia, P. Obladen, M. Fernández-Lomana, E.Herrera, C. Sabater, J.J. Palacios, I. Guillamón, H. Suderow 

https://www.arxiv.org/abs/2407.20577

[2] Thickness determination and control in protein-based biomaterial thin films 

L. Almonte, M. Fernandez, J.D. Cortés-Ossa, P.Blesio, L. Juan-Bordera, C. Sabater, A. L. Cortajarena, M. R. Calvo 

ACS Applied Bio Materials 7(8), 5719-5727  https://doi.org/10.1021/acsabm.4c00803 

[3] Evidence of an Off-Resonant Electronic Transport Mechanism in Helicenes 

T. de Ara, C. Hsu, A. Martinez-Garcia, B. C. Baciu, B, A. Guijarro, C. Sabater, C. Untiedt, H. S. J. van der Zant 

J. Phys. Chem. Lett. 15(32),  8343-8350  https://doi.org/10.1021/acs.jpclett.4c01 

[2023]

[1] A pedagogical experimental setup to measure quantum transport

C. Byron, E. Medina, C. Sabater, W. Brämer-Escamilla

Physics Education 58 (3), 035029   https://doi.org/10.1088/1361-6552/acc5cd

[2] Unraveling the Interplay between Quantum Transport and Geometrical Conformations in Monocyclic Hydrocarbons Molecular Junctions

A. Martinez-Garcia, T. de Ara, L. Pastor-Amat, C. Unitedt, E.B. Lombardi, W. Dednam,  C. Sabater

J. Phys. Chem. C  127 (48) 23303-2331   https://doi.org/10.1021/acs.jpcc.3c05393 

[3] A group-theoretic approach to the origin of chirality-induced spin selectivity in non-magnetic molecular junctions

W. Dednam, M.A. García-Blázquez, L.A. Zotti, E.B. Lombardi, C. Sabater, S, Pakel, J. J. Palacios 

ACS Nano 17 (7), 6452–6465      https://doi.org/10.1021/acsnano.2c11410

[2022]

[1] Simulation of the Einstein-de Haas effect combining molecular and spin dynamics 

W Dednam, C. Sabater, AE Botha, EB Lombardi, J Fernández-Rossier, MJ Caturla 

Computational Materials Science 209,  111359    https://doi.org/10.1016/j.commatsci.2022.111359

[2] De las TICs a las TACs: Implementación de la impresión 3D y simulación para el estudio de materiales porosos en grados de ciencias e ingeniería 

L.P. Maiorano, C. Sabater, M.R. Calvo, J.M. Molina  

Capitulo de libro en Octaedro http://hdl.handle.net/10045/128729 

[3] MICROSCOPIO PARA REALIZAR ESTUDIOS DE TWISTRÓNICA Y ESPINTRÓNICA 

P. Ferrer-Alcaraz, C. Sabater 

Numero de solicitud de patente P202230548 

[4] Dithia[9]helicenes: Molecular Design, Surface Imaging, and Circularly Polarized Luminescence with Enhanced Dissymmetry Factors 

B. Baciu, P. Bronk, T. de Ara, R. Rodríguez, P. Morgante, N.Vanthuyne, C. Sabater, C. Untiedt, J. Autschbach, J.Crassous, A. Guijarro 

Journal of Materials Chemistry C 10, 14306-14318 https://doi.org/10.1039/D2TC02910C

[5] Dynamic bonding influenced by the proximity of adatoms to one-atom high step edges 

W. Dednam, S. Tewari, E.B. Lombardi, J.J. Palacios, J.M. van Ruitenbeek, C. Sabater 

Phys. Rev. B  106, 125418             https://doi.org/10.1103/PhysRevB.106.125418 

[6] Signature of Adsorbed Solvents for Molecular Electronics via Scanning Tunneling Microscopy 

T. de Ara, C. Sabater, C Borja-Espinosa, P. Ferrer-Alcaraz, B. Baciu, A. Guijarro, C. Untiedt 

Materials Chemistry and Physics 291, 126645     https://doi.org/10.1016/j.matchemphys.2022.126645