Scientists have come up with a new technique to evaluate the mechanical forces generated in polymer crystallization as they cool down from their molten state. They used small, fluorescent molecules to ...

Different from small molecules, polymers will fold into lamellar crystals during crystallization and further assemble into lamellar stacks. Synchrotron small-angle X-ray scattering (SAXS) is an ...

When biological material (cells, blood, tissues) is frozen, cryoprotectants are used to prevent the damage associated with the formation of ice during the freezing process. New polymeric ...

Distinguished University and Charles T. and Ruth M. Bach Professor Yury Gogotsi is the recipient of a four-year NSF grant from the Division of Materials Research, “Synthesis and Optoelectronic ...

When biological material is frozen, cryoprotectants are used to prevent the damage associated with the formation of ice during the freezing process. New polymeric cryoprotectants are emerging, ...

The intricate shapes of snowflakes have long fascinated scientists, but water isn’t the only fluid that freezes into elaborate crystal structures. Polymers and metal alloys do the same. Now, ...

Tau protein fibrillization mirrors polymer crystallization. The pathway taken as tau proteins form fibrils is very similar to the pathway taken by polymers as they crystallize. Tokyo, Japan – ...

Plastics are long chains of specific polymers. The use of plastics has grown significantly owing to their high strength, high stiffness, high formability, and lightweight. Additionally, the most ...

In modern times, manufacturers produce highly specialized materials for a wide array of uses, called polymers. Polymers have a variety of purposes owing to their versatile properties, ranging from ...

In modern times, manufacturers produce highly specialized materials for a wide array of uses, called polymers. Polymers have a variety of purposes owing to their versatile properties, ranging from ...