LightingSense aims at studying the individual components of future IoE systems: enhanced OPVs/PSCs for indoor light harvesting, materials and architectures for printed supercapacitors leading to lower series resistance and self-discharge, and ultra-low power Si based circuitry for sensing, data processing, and wireless communication. Final goal is also to integrate these components together into a flexible, lightweight, compact, energy autonomous wireless IoT sensor.
Funding source
Academy of Finland
Partners
Aalto University
Tampere University
Contact persons
Paola Vivo
Associate Professor, Material Chemistry, specifically Solar-Driven Chemistry![](/_next/image?url=https%3A%2F%2Fcontent-webapi.tuni.fi%2Fimage-style%2Fbase_square_lg%2Fproxy%2Fpublic%2Fprofile_pictures%2F4522.jpg%3Fitok%3D1rGRQPfB&w=1200&q=75)
Arri Priimägi
Professor![](/_next/image?url=https%3A%2F%2Fcontent-webapi.tuni.fi%2Fimage-style%2Fbase_square_lg%2Fproxy%2Fpublic%2Fprofile_pictures%2F2101.jpg%3Fitok%3DyKk4WIf2&w=1200&q=75)
Donald Lupo
Emeritus Professor![](/_next/image?url=https%3A%2F%2Fcontent-webapi.tuni.fi%2Fimage-style%2Fbase_square_lg%2Fproxy%2Fpublic%2Fprofile_pictures%2F2968.jpg%3Fitok%3DgyW0e4jk&w=1200&q=75)