3D Printed Zn-ion Batteries For Wearable Devices (3DZnBat)
Lead Research Organisation:
Imperial College London
Department Name: Materials
Abstract
Wearable electronics, which include wristwatches, fitness trackers, hearable, temperature sensors, and monitoring sensors to name a few, are an increasingly dominating technology which requires energy autonomy. The battery market for such electronics is steadily increasing, and it is predicted to fill a significant percentage of the battery market by 2030.
Batteries for wearable devices have specific requirements to fulfil, as they must be lightweight and small, non-flammable, and they should be based on widely available raw materials. The idea behind the 3DZnBat proof-of-concept is to address pressing challenges in the field of battery for wearable electronics. 3DZnBat looks at the possibility to establish sustainable, non-flammable and conformable solutions for the newly growing market.
Batteries for wearable devices have specific requirements to fulfil, as they must be lightweight and small, non-flammable, and they should be based on widely available raw materials. The idea behind the 3DZnBat proof-of-concept is to address pressing challenges in the field of battery for wearable electronics. 3DZnBat looks at the possibility to establish sustainable, non-flammable and conformable solutions for the newly growing market.
Organisations
People |
ORCID iD |
| Cecilia Mattevi (Principal Investigator) |
Publications
Cheng G
(2025)
Photo-Rechargeable Sodium-Ion Batteries with a Two-Dimensional MoSe 2 Crystal Cathode
in Nano Letters
Tagliaferri S
(2024)
3D printing of layered vanadium disulfide for water-in-salt electrolyte zinc-ion batteries.
in Nanoscale horizons
| Description | Novel cathode fabrication design for miniaturized batteries. |
| Exploitation Route | via IP. |
| Sectors | Manufacturing including Industrial Biotechology |