As indoor-powered consumer and IoT products scale rapidly, developers face a new challenge: how to properly design, size, and integrate indoor photovoltaics for reliable energy harvesting.
🔗 Read the article here: https://pubs.acs.org/doi/10.1021/acsenergylett.5c03760
We are proud to share a newly published article in ACS Energy Letters exploring critical (and often overlooked) aspects of emerging indoor PV technologies and their system-level implications.
Why this matters for you:
– It consolidates fragmented know-how across materials science, device engineering, and power management
– It highlights performance considerations specific to low-light indoor environments
– It addresses integration challenges between photovoltaic cells and ultra-low-power electronics
– It provides guidance that can accelerate the deployment of sustainable, maintenance-free IoT devices
At e-peas, we collaborated with leading academic and industrial partners to bring together expertise spanning hybrid solar cells, organic photovoltaics, printable PV, and energy harvesting IC design.
This cross-disciplinary effort reflects a simple belief: As indoor energy harvesting matures, shared technical insight benefits the entire ecosystem.
We are grateful to co-author this work alongside experts from:
• Tampere University
• University of Rome Tor Vergata (CHOSE)
• Newcastle University
• Swansea University (SPECIFIC-IKC)
• Dracula Technologies
• and our colleagues at e-peas
Special thanks to the authors for this outstanding collaboration:
G. Krishnamurthy Grandhi
Bruno DAMIEN
Zeynab Skafi
Kezia Sasitharan
kanaan hani
Hasan Alkhatib
Sadok Ben Dkhil, PhD
Matthew J. Carnie
Marina Freitag
Thomas M. Brown
If you are designing next-generation indoor-powered electronics, this publication offers valuable technical insights to support your development.
🔗 Read the full article here: https://pubs.acs.org/doi/10.1021/acsenergylett.5c03760
