Researchers at Umeå University have recently developed a highly sensitive method for detecting bacterial spores—tough microorganisms that survive extreme conditions and can cause both food...
Researchers develop 3D-printable graphene ink for widespread health, industrial and environmental applications.
Innovative Takumi-shaped DNA hydrogels exhibit prolonged retention and drug release, showcasing their potential as biocompatible delivery systems in medicine.
A new study sheds light on how the extreme miniaturization of thin films affects the behavior of relaxor ferroelectrics -- materials with noteworthy energy-conversion properties used in sensors,...
The University of Oulu is at the forefront of developing cutting-edge biosensor technology that could revolutionize the early diagnosis and treatment of diseases.
With technology developed at MIT, 6K is helping to bring critical materials production back to the U.S. without toxic byproducts.
The ESCRT-III-like protein Vipp1 couples filament polymerization with membrane remodeling. It assembles planar sheets as well as 3D rings and helical polymers, all implicated in mitigating plastid-...