Researchers develop self-healing polymers for cracked cellphone screens
If you're like most cellphone users, at one point you have experienced a cracked screen.
If you're like most cellphone users, at one point you have experienced a cracked screen.
Nanomaterials
Oct 18, 2021
0
152
Each human being uses, on average, 30 kg of plastic per year. Given that global life expectancy currently stands at approximately 70 years, each person will discard some two metric tons of plastic in his or her lifetime. ...
Materials Science
Sep 23, 2021
2
179
The idea of cryogenically freezing a person to preserve their body until many years into the future has long been a staple of science fiction stories. However, the need to reliably store biological materials such as cells ...
Polymers
Aug 10, 2021
0
8
Plastics sustainability has come a long way in recent years thanks in large part to scientific advances. But even as plastics become more and more environmentally friendly, the world continues to be polluted as many industries ...
Polymers
Aug 3, 2021
0
355
Advanced Materials recently published the findings of Technion researchers who created conductors relevant to solar energy generation, biomedical engineering, and more using by-products of the food industry that would otherwise ...
Biochemistry
Jul 15, 2021
0
1625
A new approach to studying conjugated polymers has made it possible for an Army-funded research team to measure, for the first time, the individual molecules' mechanical and kinetic properties during polymerization reaction. ...
Materials Science
Jun 16, 2021
1
16
Scientists have developed the first cells that can construct artificial polymers from building blocks that are not found in nature, by following instructions the researchers encoded in their genes.
Biotechnology
Jun 3, 2021
0
27
Double helical covalent polymers—which are spiraling collections of nature's building blocks—are fundamental to life itself, and yet, despite decades of research, scientists have never been able to synthesize them in ...
Biochemistry
May 17, 2021
1
229
NUS researchers have discovered a method to fabricate a biologic interpenetrating network (IPN) hydrogel using applied rheology.
Biochemistry
May 12, 2021
0
9
Engineers have developed a new material that mimics human cartilage—the body's shock absorbing and lubrication system, and it could herald the development of a new generation of lightweight bearings.
Polymers
Apr 22, 2021
0
41