“We look forward to bringing together Recursion's biological and chemical exploration and mapping capabilities with Exscientia's molecular design and automated chemistry synthesis capabilities to ...

A innovative molecular "cut and sew" process by University of Dundee scientists has allowed the design of a research tool that will accelerate drug design for diseases for which no other options ...

This brochure shows how you can design smaller, stronger, and more durable medical devices with UHMWPE medical grade ...

In organic molecules, an exciton is a particle bound pair of an electron (negative charge) and its hole (positive charge). They are held together by Coulombic attraction and can move within molecular ...

Molecular biology and structural biology are both critical fields at the forefront of current scientific advancements, ...

The Design, Automation, Manufacturing, and Processes (DAMP) Lab and eLabNext announced a formal partnership today to coincide with the kick-off of the International Workshop for BioManufacturing ...

At ELRIG Drug Discovery 2024, Technology Networks sat down with Miles Witham, professor of trials for older people at ...

Yizhi “Patrick” Cai is coordinating a global effort to write a complete synthetic yeast genome. If he succeeds, the resulting cell will be the artificial life most closely related to humans to date.

Biosensors play a key role in medical research and diagnostics. At present, however, they generally have to be specially developed for each application. A team led by LMU chemist Philip Tinnefeld has ...

As winter approaches, many people start searching for reliable heating solutions to keep their homes warm and cozy amidst the ...

Researchers have developed a strategy that enables biosensors to be easily adapted for a wide range of applications.

Researchers are making headway to conveniently access information stored in synthetic polymers.