University of Michigan has developed minuscule solar sensors able to perpetually harvest energy from its surroundings and effectively manage the energy it gathers. In theory, the solar cell could run forever.
Because it is so small, the solar sensor holds potential for use in biomedical implants, both as it exists, and in a modified state in which it could gain power from the body’s chemical changes or a patient’s body heat.
Further nanotech applications have yet to be explored, but the innovation in energy management is highly promising.
Itty-Bitty Eco Powerhouses
World's Smallest Solar Cell Optimizes Energy Management
Trend Themes
1. Minuscule Solar Sensors - The development of minuscule solar sensors opens up opportunities for perpetual energy harvesting and efficient energy management.
2. Biomedical Implants - The use of minuscule solar sensors in biomedical implants could revolutionize the field by utilizing body chemical changes or body heat to power the implants.
3. Nanotech Applications - Further exploration of nanotech applications could lead to innovative uses for minuscule solar sensors.
Industry Implications
1. Renewable Energy - The renewable energy industry can leverage minuscule solar sensors to enhance energy harvesting and management systems.
2. Healthcare - The healthcare industry can benefit from using minuscule solar sensors in biomedical implants for improved energy efficiency and longer lifespan.
3. Nanotechnology - The nanotechnology industry can explore the potential of minuscule solar sensors for disruptive innovations in various applications.