Project

LightningSense - Energy autonomous wireless sensor systems powered by printed light energy harvesting and storage

Tampere University

Faculty of Information Technology and Communication Sciences, Faculty of Engineering and Natural Sciences

Materials Science and Environmental Engineering, Electrical Engineering

Chemistry and Advanced Materials (CAM)

1.9.2018–31.8.2021

Technology

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

Professor, Material Chemistry, specifically Solar-Driven Chemistry

Faculty of Engineering and Natural Sciences

Tampere University

paola.vivo [at] tuni.fi (paola[dot]vivo[at]tuni[dot]fi)

Hervanta Campus

https://orcid.org/0000-0003-2872-6922

Arri Priimägi

Faculty of Engineering and Natural Sciences

Tampere University

arri.priimagi [at] tuni.fi (arri[dot]priimagi[at]tuni[dot]fi)

Hervanta Campus

https://orcid.org/0000-0002-5945-9671

Donald Lupo

Emeritus Professor

Faculty of Information Technology and Communication Sciences

Tampere University

donald.lupo [at] tuni.fi (donald[dot]lupo[at]tuni[dot]fi)

Hervanta Campus