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Researchers are developing bioplastic bubbles from algae that could grow, repair, and protect habitats on Mars without ...
Using intricate geometry found in nature and refined through aerospace and biomedical design, scientists have now 3D-printed ...
Researchers have developed a novel solution for trapping carbon in concrete by blending a sustainable, easy-to-grow green ...
2d
Tech Xplore on MSNNew concrete blend absorbs more carbon dioxide while using less cementFrom the mud, straw, and gypsum mixtures of ancient Egypt's monumental pyramids to the sophisticated underwater material ...
8d
Interesting Engineering on MSNHarvard grows algae in Mars-like conditions, raising hopes for life on Red PlanetThe experiments show a real chance of creating self-sufficient, closed-loop living spaces using shelters made from ...
A team of scientists from the University of Miami, the Florida Aquarium and Tela Marine in Honduras is working together to ...
1d
Interesting Engineering on MSNUS engineers reinvent concrete to use 68% less material, absorb 142% more CO2Lab tests showed it retained 90 percent of the strength of solid concrete blocks, while using 68 percent less material and achieving 32 percent higher CO₂ uptake per unit of cement. Now, the team is ...
Geologists confirm that industrial waste turns into rock in just 35 years, challenging traditional ideas about geological formation.
A team of scientists from the University of Miami, the Florida Aquarium and Tela Marine in Honduras is working together to ...
A biodegradable graphene-based paste enables secure coral attachment and mineral growth stimulation without using metal ...
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