Encryption technologies

Socio-economic impact

Development of novel healthcare treatments based on photonics Advanced quality control systems Increasing precision manufacturing Increasing performance (cost-competitive and resource-efficient) of production processes Fully digital value chain from supplier, producer, customer, user… Data communications, always and everywhere Internet of Things: a world of increasing connectivity and complexity High-performance processing (classical and quantum) Energy efficiency (highly efficient energy generation, lighting, etc.) Green photonics (for example organic photovoltaics, OLEDs) Advanced sensing and imaging techniques Encryption technologies Connected, autonomous vehicles Smart roads Monitoring of soil, fields, livestock, machinery Food manufacturing, inspection and packaging Water management and sanitation Promoting circular economy Portable and immediate chemical and biological sensing Health diagnosis, therapies and surgeries Data-driven economy and digital society Clean growth and clean environment Security and safety for society Future mobility Agrifood and food safety Empowering smart, efficient industry Ageingsociety
Socio-economic
challenges

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Nanomaterials and Spectroscopy Group

Research center

Materials Physics Center

Main researcher

Researcher name: 
Yury Rakovich
Researcher email: 
yury.rakovich@ehu.eus

Description

The group's research is focused on spectroscopy and photonic applications of nano-scale functional units, including semiconductor quantum dots and quantum wires, metal nanoparticles and nanoantennas and organic/inorganic nano-hybrid systems.

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Quantum Nanophotonics Laboratory

Research center

Materials Physics Center

Main researcher

Researcher name: 
Gabriel Molina Terriza
Researcher email: 
gabriel.molina.terriza@gmail.com
Researcher phone: 
+34943018925

Description

The Quantum Nanophotonics Laboratory is led by Ikerbasque Research Professor Gabriel Molina-Terriza. We are a team of scientists endeavoruing to unveil the physics of the interactions of quantum light and matter at the nanoscale.

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