Discovered a material that will make robots jump like grasshoppers
Thanks to this material, robots of the future could overcome the limits of human anatomy and jump in an incredible way
Thanks to this material, robots of the future could overcome the limits of human anatomy and jump in an incredible way
The newly developed material goes against all the rules we know about conductivity. Scientists still have no idea why.
The invention opens up new catalytic technologies that use non-precious metal catalysts for important applications such as the storage of renewable energy, the production of renewable fuels and the production of sustainable materials.
A DNA-based plastic can be recycled virtually indefinitely, is light and easy to manufacture.
A special metamaterial developed by the University of Missouri has characteristics that assimilate it to a real computer
A flexible ice was obtained at low temperatures by a Chinese team. It can report phase changes, detect viruses and transmit data.
Biomimetics still on the piece: scientists obtain indestructible glass from the structure of the oyster. Poor smartphone repairers.
The extraordinary new material exhibits zero thermal expansion even at a gigantic temperature shift.
It uses tiny vibrations inside to resist any attack: you cannot cut it and it is virtually indestructible. It is Proteus, a new, stunning material.
A masterpiece for many reasons: innovative materials, recyclable, fast, economic, ecological. An innovative construction method: Prvok 3D, the truly amazing 3D printed tiny house.
The University of Texas studies and combines new materials to coat buildings with intelligent metal skin capable of interacting with the environment.
New construction methods, bright ceilings, futuristic car interiors, even batteries: transparent and enhanced wood is the most promising material of the future
It will bend, it will "dent" like a thin sheet of transparent metal, but it won't go to pieces. Here is the ductile glass of the University of Tampere.
Cellulose nanofibers are light, resistant, printable and recyclable: what are we waiting for to make wooden cars? In Japan they are thinking about it.
The team created a new bio-material by merging cellulose fibers and silk proteins together. The result is spectacular and biodegradable.
Each phase of the process is natural and gives life to biodegradable, fireproof, waterproof and recyclable products. Pine needles: aesthetic and ecological triumph.
A research team has announced the development of a whole series of 3D printable materials that can repair themselves, even after a clean break: the rules of the game could change for fashion, electronics and a thousand other fields.