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Transforming waste into resourcesWe are developing advanced methods to recover raw materials from biomass, electronic, and plastic waste combining biological, chemical, and engineering approaches, all enhanced by artificial intelligence and machine learning. These materials are then reintegrated into green technologies, from sustainable packaging to energy systems and agricultural solutions. |
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Transforming waste into resourcesWe are developing advanced methods to recover raw materials from biomass, electronic, and plastic waste combining biological, chemical, and engineering approaches, all enhanced by artificial intelligence and machine learning. These materials are then reintegrated into green technologies, from sustainable packaging to energy systems and agricultural solutions. |
Building intelligent, eco-Friendly sensorsOur teams are designing low-energy optoelectronic sensors to monitor critical indicators like water and food quality, ocean health, and soil conditions. By coupling these systems with cutting-edge data optimization techniques, we ensure our sensor networks are both efficient and accurate. |
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Building intelligent, eco-Friendly sensorsOur teams are designing low-energy optoelectronic sensors to monitor critical indicators like water and food quality, ocean health, and soil conditions. By coupling these systems with cutting-edge data optimization techniques, we ensure our sensor networks are both efficient and accurate. |
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Innovative integrated systemsWe are creating integrated systems for renewable energy generation, storage, and conversion, alongside next-generation soft and green robotics designed to monitor and intervene in fragile environments such as oceans and landfarms. |
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Innovative integrated systemsWe are creating integrated systems for renewable energy generation, storage, and conversion, alongside next-generation soft and green robotics designed to monitor and intervene in fragile environments such as oceans and landfarms. |