Tech Xplore on MSN3d
Superelastic alloy that functions in extreme temperatures could aid space exploration
Researchers at Tohoku University have developed a titanium-aluminum (Ti-Al)-based superelastic alloy. This new material is ...
Protein therapeutics in healthcare: current and future trends
Discover the world of therapeutic proteins, their applications, advantages, challenges, and future trends in healthcare and ...
Science Daily4d
A lightweight flexible alloy for extreme temperatures
Strong, lightweight, superelastic, and able to function across a range of temperatures, this newly developed alloy could be a game-changer for space exploration and medical technology.
Optical tweezers reveal forward and backward motion is symmetric in molecular shuttling
In molecular shuttles, a ring molecule is threaded onto a linear molecular strand and can move between two portions of the ...
Superelastic Alloy Stays Strong from Liquid Helium to Boiling Water, Transforming Space and Medicine
Researchers have unveiled a groundbreaking titanium-aluminum alloy that maintains superelasticity across an unprecedented ...
AZoNano on MSN10d
Forward and Backward Motion is Symmetric in Molecular Shuttling
In molecular shuttles, a ring molecule is threaded onto a linear molecular strand and can move between two portions of the ...
EurekAlert!21d
University of Tennessee researchers among world’s most highly cited scientists
magnetic or thermal properties. “My work involves rational synthesis of novel materials, mainly in single crystal form, and investigation of the structure-function relationships,” he said. “The goal ...
Mediafeed on MSN10h
Who Shapes Tomorrow? An AI, Cybernetic Perspective
The future is not merely a place we go. It is the unfolding of the possibilities that exist in and around us—a field of ...