Imagine a battery can bend, stretch, and break down safely after use. It could power wearables and medical devices while cutting down electronic waste.
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Battery waste from wearable devices and medical implants is a growing problem, creating an urgent need for sustainable alternatives. Researchers at McGill University’s Trottier Institute for Sustainability in Engineering and Design have developed a new eco-friendly battery that could power these devices while safely decomposing in the environment.
The battery is made from citric acids, gelatin, and
biodegradable metals, replacing heavy-metal electrodes commonly used in
conventional batteries. Magnesium and molybdenum, often used in biodegradable
battery concepts, degrade more easily than heavy metals but typically show
lower performance. Previous magnesium-based designs faced a barrier layer on
the metal that reduced voltage and battery life. To overcome this, the team
used naturally occurring citric and lactic acids mixed with gelatin, preventing
the reaction-blocking layer and improving both output and longevity.
To make the battery flexible, the acids were suspended in
gelatin, creating a soft, stretchable electrolyte. The battery was then cut in
a kirigami pattern, a geometric design that allows materials to expand and
twist without tearing. This structure enables the battery to stretch up to 80
percent without losing performance.
In testing, the battery powered a pressure sensor, delivering about 1.3 volts—slightly below a standard AA battery but sufficient for wearable electronics. The design is suited for soft wearables, implantable medical devices, and flexible IoT sensors.
The researchers are now seeking industry partners to advance the technology, with goals to miniaturize the battery for implants, enhance performance, and integrate it with fully biodegradable circuits. The work addresses the growing problem of electronic waste by providing a sustainable alternative to traditional batteries, offering both functionality and environmental benefits.
BY: Nirosha Gupta ;)
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