The NAVOLCHI project explores, develops and demonstrates a novel nano-scale plasmonic chip-to-chip and system-in-package interconnection platform to overcome the bandwidth, foot-print and power consumption limitations of todays electrical and optical interconnect solutions. A 2.4M€ FP7 STReP.
The NanoPV project aims at making a breakthrough step-change in photovoltaics by the removal of a set of bottlenecks which have been identified to block the application of nanostructures for high-efficiency, low-cost solar cells. A 4.0M€ FP7 STReP.
The objective of the project is the development and manufacture in Spain of a femtosecond laser system, low average power (1 W), small size (portable) and affordable (low cost) for industrial use.
A highly integrated and sensitive POrous SIlicon based lab on a chip for multiple quantitaTIVE monitoring of Food allergies at point of care. A 2.9M€ FP7 STReP.
Subcontracted by The Construction Technology Centre - AIDICO, 2010 (10,000€).
Subcontrated by 3 companies, 2009 (36.000€).
The aim of this project is to obtain new all-fiber light sources based on the photonic crystal fiber (PCF) technology. We will focus on fiber lasers operating on continuous wave, Q-switched or mode-locked regime, and their combination with highly non-linear PCF for supercontinuum generation in all-fiber systems.
The Optical fibers and Signal Processing Group results from several years of collaboration between researchers of the University of Valencia belonging to the Instituto de Ciencia de los Materiales and the Optics Department.
PROMETEO program, Generalitat Valenciana (500,000€).