Our research is highly interdisciplinary, and combines advanced nanofabrication, quantum transport and optical spectroscopy techniques to study the properties of electronic states in novel quantum materials. Currently, we focus on the interplay between symmetry and interactions in low dimensional (LD) materials.
MAIN RESEARCH TOPICS:
Probing the electronic properties of 2D materials and devices. Focus on electron-electron and electrostatic interactions in graphene devices; bandstructure engineering (via moiré potentials, nanostructured environment or nanolithography) and electron optics in graphene.
[1] J.M. Caridad et al. NanoLetters, 24, 3, 935Â (2024)
[2] P.R. Whelan et al. 2D Mater., 7, 035009 (2020)
[3] B.S. Jessen et al. Nature Nanotechnol., 14, 340 (2019)
[4] J.M. Caridad et al. NanoLetters, 18, 8, 4675Â (2018)
[5] J.M.Caridad et al. Nature Comm., 7, 12894 (2016)
Chiral nanostructured materials
Transport and optical properties
[1] J.A. Delgado-Notario et al. Adv. Funct. Mater., 2401599, (2024)
[2] J.M. Caridad et al. Phys. Rev. Lett., 126, 177401 (2021)
[3] J.M.Caridad et al. Sci. Rep., 7, 45548 (2017) Â
[4] J.M.Caridad et al. ACS Photonics, 6, 675 (2015)
FACILITIES
