Contact data
Description of the product/technology that incorporates graphene
Automatic transfer system of 2D layers of variable thickness to an arbitrary final substrate.
Environment: At ISOM-UPM we work in clean room conditions, but these are nor required for standard processing.
Final substrate: arbitrary substrate, either inorganic (dielectrics, semiconductors, metals) or organic, with several textures and morphologies.
The 2D transferred graphene shows an excellent electronic quality and transparency, with higher uniformity and smaller doping and strain (deformation) tan those achieved by manual transfer. This improves device performance and lifespan.
Wide applications in many sectors: energy, ICT, medicine, manufacturing.
Indicators
Figure 1: Thermal and PE-enhanced CVD AIXTRON Black-Magic Pro System
Figure 2: Scheme of the automatic transfer system for graphene and other 2D crystals
Project: Automatic Transfer of 2D Materials to Flexible Substrates and Benchmarking as Chemical Sensors
MISTI Global Seed Funds, 2016 – 2017, $27500
I.P. Tomás Palacios (MIT) y F. Calle (UPM).
Project: Grafeno para dispositivos de generación y almacenamiento de energía, GRAFAGEN
Ministerio de Economía y Competitividad, ENE2013-47904-C3-1-R (2014-2017). 129.000 €
I.P.: Javier Martínez y F. Calle
Paper: A. Boscá, J. Pedrós, J. Martínez, F. Calle, Method for extracting relevant electrical parameters from graphene field-effect transistors using a physical model, J. Appl. Phys. 117, 044504 (2015); doi: 10.1063/1.4906972
Paper and patent:
- Boscá, J. Pedrós, J. Martínez, T. Palacios, F. Calle, Automatic graphene transfer system for improved material quality and efficiency, Scientific Reports 6, 21676; doi: 10.1038/srep21676 (2016).
- Inventors: A. Boscá Mojena, J. Pedrós Ayala, J. Martínez Rodrigo, F. Calle Gómez, T. Palacios Gutiérrez, Procedimiento de transferencia de nanocapas y aparato de realización del mismo, P201331702 21/11/13, PCT, Propietary UPM (85%) and MIT (15%)
