Juan Salvador Sánchez is a clean room technician at the University of Salamanca since May 2019.
He was born in Zamora, Spain in 1996. He graduated in Physics in 2018 from University of Salamanca. He got a Master’s degree in Applied Physics at the University of Salamanca in 2019.
His field of competence includes nanofabrication techniques (exfoliation of 2D materials, fabrication of heterostructures, optical lithography, e-beam evaporation, dry etching with ICP-RIE and RIE, annealing with RTP, micro-bonding, etc…), characterization techniques (Raman spectroscopy, FTIR spectroscopy, THz spectroscopy) and equipment maintenance.
As an undergraduate and master student he also participated in scientific research. His main collaboration was the multivariate optimization of the Atkinson cycle using Mathematica. As a final degree project, he carried out a work about fiber optic sensors.
Email: juan2s@usal.es
Nature Communications volume 14, Article number: 318 (2023) (2023)''
Polarization-tuneable excitonic spectral features in the optoelectronic response of atomically thin ReS2
2D Mater. 11 (2024) 015011 (2023)''
Enhanced terahertz detection of multigate graphene nanostructures
Nanophotonics , 11(3), 519-529, (2022) (2022)''
Nature of the 1/f noise in graphene—direct evidence for the mobility fluctuation mechanism
Nanoscale, Volume 14, Issue 19, Pages 7242 (2022) (2022)''
The Low-Temperature Photocurrent Spectrum of Monolayer MoSe2: Excitonic Features and Gate Voltage Dependence
Nanomaterials, 12, 322 (2022) (2022)''
Fast response photogating in monolayer MoS2 phototransistors
Nanoscale, 2021, Advance Article - DOI https://doi.org/10.1039/D1NR03896F (2021)''
Ionic‐Liquid Gating in Two‐Dimensional TMDs: The Operation Principles and Spectroscopic Capabilities
Micromachines, 12, 1576, (2021) (2021)''
Responsivity enhancement of a strained silicon field-effect transistor detector at 0.3 THz using the terajet effect
Optics Letters , 46, 3061-3064 (2021) (2021)''
Excitons, trions and Rydberg states in monolayer MoS2 revealed by low-temperature photocurrent spectroscopy
Communications Physics volume 3, 194 (2020) (2020)''