12 Sept. | 09:00 - 10:30 |
Room 37 | |||||||
ENERGY & ENVIRONMENT |
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INDUSTRY 4.0 |
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TT.V - Technical Multi-Track with Parallel SYMPOSIA | |||||||
Flexible storage energy devices | |||||||
Co-organized with iENTRANCE@ENL Chair: Alessandro PEDICO, INRIM |
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Wearable electronics and Internet of Things (IoT) devices are rapidly spreading in our every-day-life. Modern society is constantly expecting a noticeable development in terms of smart functions, long-term stability, and long-time outdoor operation of portable electronics. Consequently, research is rapidly pushing technological boundaries to develop new flexible and miniaturized devices as multi-purpose sensors, health monitoring systems, energy harvesting and others. Naturally, this new eco-system of wearables and IoT devices need efficient energy storage units that could work as on-demand power source. In this context, the development of new lightweight, flexible, and durable batteries and supercapacitors is urgently needed as alternative to the conventionally rigid and bulky energy storage devices currently employed. | |||||||
TT.V.A.1 |
Eugenio GIBERTINI Polytechnic of Milan Flexible energy storage devices |
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TT.V.A.2 | Davide ARCORACI Polytechnic of Turin Perspectives on Flexible Hybrid Supercapacitor Manufacturing Processes and Accessible Applications |
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TT.V.A.3 | Gabriele PERNA - CV University of Perugia Low-cost 3D-printed piezoelecrets based on foamed PLA for energy harvesting devices |
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TT.V.A.4 | Roberto SPERANZA Polytechnic of Turin Laser induced graphene and vacuum sealing encapsulation enabling flexible hybrid energy harvesting and storage devices |
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