Researchers observed nanoscale cracks in platinum heal themselves under cyclic stress in lab conditions — a breakthrough that could change how we design metals.
Scientists engineer algae-powered biophotovoltaic cells with enhanced efficiency, separating charge generation and power delivery for greener, low-power renewable energy.
Researchers are developing bio-concrete using waste from invasive plants and animal shells, combining sustainability with construction innovation and ecosystem benefit.
Japanese researchers developed a fabric woven with wafer-thin solar cells, aiming for clothing that charges devices — durable, flexible, washable solar clothing.
How Solar Panels Are Made: From Sand to Sunlight
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When Metal Heals Itself: A Lab Discovery That Could Rewrite Material Science
Researchers observed nanoscale cracks in platinum heal themselves under cyclic stress in lab conditions — a breakthrough that could change how we design metals.
Algae-Powered Bio Solar Cells: When Pond Water Becomes Power
Scientists engineer algae-powered biophotovoltaic cells with enhanced efficiency, separating charge generation and power delivery for greener, low-power renewable energy.
Turning Invaders into Infrastructure: Bio-Concrete from Invasive Species
Researchers are developing bio-concrete using waste from invasive plants and animal shells, combining sustainability with construction innovation and ecosystem benefit.
Solar-Cell Fabric: When Your Clothes Become Power Generators
Japanese researchers developed a fabric woven with wafer-thin solar cells, aiming for clothing that charges devices — durable, flexible, washable solar clothing.