Meet Carvey Ehren Maigue, a Filipino engineering student who developed a revolutionary solar panel made from discarded fruits and vegetables. His invention, called AuREUS, captures ultraviolet light instead of relying on direct sunlight—meaning it can generate clean energy even on cloudy days or in shaded spaces. It uses luminescent particles from food waste to absorb UV rays and convert them into visible light, which is then harnessed by solar strips.

This breakthrough could change the future of urban solar power. Instead of bulky rooftop installations, AuREUS panels can be mounted on windows or walls, bringing sustainable energy generation into cities and indoor environments. For his game-changing innovation, Maigue won the prestigious 2020 James Dyson Sustainability Award, showing how waste can literally become power.

#SustainableTech #SolarEnergy #GreenInnovation #FoodWasteToPower #UVSolarPanel

A Filipino engineering student, Carvey Ehren Maigue, developed an innovative solar panel called AuREUS, which is made from recycled food waste—specifically rotting fruits and vegetables.

Unlike traditional solar panels that need direct sunlight, this panel works by capturing ultraviolet (UV) light, allowing it to generate electricity even on cloudy days or in shaded areas.

The technology uses luminescent particles from plant waste that absorb UV rays and re-emit them as visible light, which is then harvested by photovoltaic strips at the panel’s edges.

This makes it ideal for use on walls or windows in cities, where sunlight can be inconsistent.

Carvey’s invention earned him the 2020 James Dyson Sustainability Award, recognizing its potential to revolutionize solar energy by making it more adaptable, environmentally friendly, and accessible—especially in urban or low-light environments.

Scientists at ETH Zurich have created a remarkable new material: glow-in-the-dark wood infused with bioluminescent fungi. By integrating Armillaria mellea—a type of fungus known for its natural greenish glow—into wood structures, researchers have developed a sustainable lighting solution that requires no electricity, batteries, or artificial components. The wood absorbs light during the day and emits a soft glow at night, making it both energy-efficient and visually captivating.

This innovation could revolutionize urban infrastructure by providing low-impact, renewable lighting for streets, parks, and pathways. It also opens up new possibilities for eco-friendly architectural design, where biological components enhance the functionality of building materials. As cities search for greener alternatives to cut emissions and light pollution, glowing wood could soon become a beacon—literally—of sustainable innovation.

#Bioluminescence #GlowInTheDark #SustainableDesign #UrbanInnovation #FungalEngineering

Genshin ~Lumine Bunny Ver~
"Is this... an answer from this world?"

CN
Lumine : Audrey

Place : Lefteris Studio Chapel Theme

#cosplay #コスプレ #Genshinimpact #genshincosplay #dejikodaioh #Childe #Lumine

Researchers at ETH Zurich, a leading science and technology university in Switzerland, have developed an innovative glow-in-the-dark wood using bioluminescent fungi.

The fungi used, such as Armillaria mellea (commonly known as honey fungus), naturally emit a greenish glow in the dark.

By integrating the fungal mycelium into the wood’s structure, scientists created a hybrid material that glows without the need for external power sources like electricity or batteries.

The project is part of a broader movement in sustainable design and living architecture, where biological systems are incorporated into buildings and public infrastructure.

The wood-fungi composite remains biodegradable and renewable, making it a highly eco-friendly alternative to traditional lighting solutions.

It offers a soft, natural light ideal for pathways, parks, or residential streets, especially in places aiming to reduce energy consumption and light pollution.

This research showcases how biodesign could shape the future of urban environments, blending nature with modern needs.

Beyond aesthetics, it also holds practical value for off-grid areas, emergency lighting, and artistic applications in urban planning.