At the University of Missouri, researchers are studying how a common medication can be repurposed to help improve gut health in people with autism. A new pilot study from Mizzou suggests that propranolol, a common blood pressure drug, may also help ease stomach issues for some people with autism.

With a $1.2 million grant from the Department of Defense, a University of Houston engineer will lead a team of researchers in finding early markers for ovarian cancer.

New research suggests an unexpected way doctors may be able to improve blood flow to the brain to battle Alzheimer’s and other neurodegenerative diseases.

Ultramicroporous carbon materials with Ångstrom-precise pore engineering offer a transformative solution for separating fluorinated gases like C₃F₆ (fluorinated propylene) and C₃F₈ (fluorinated propane). A team of scientists has synthesized the CO₂-activated porous carbon adsorbents derived from a precursory resin and systematically investigated their molecular sieving behavior for C₃F₆/C₃F₈ mixtures. Through controlled thermal pyrolysis and stepwise CO₂ activation, they tailored ultramicropore size distributions to selectively exclude or admit target molecules. Their work is published in the journal Industrial Chemistry & Materials on 24 Jun 2025.

Drawing inspiration from the veinous ears of jackrabbits and elephants, Drexel University researchers have come up with a new approach to passive heating and cooling that could one day make buildings more energy efficient. Their concept, recently published in the Journal of Building Engineering, embeds a vascular network within cement-based building materials that, when filled with paraffin-based material, can help passively regulate the surface temperature of walls, floors and ceilings.

Drs. Young Kyu Hwang, Jihoon Kim, and Kyung-Ryul Oh at the Korea Research Institute of Chemical Technology (KRICT) reported a novel one-pot catalytic reaction using platinum (Pt)-based transfer hydrogenation to convert xylose—a sugar commonly derived from agricultural waste such as corn cobs and birch bark—into two value-added chemicals: xylonic acid (a pharmaceutical precursor) and xylitol (a bioplastic and sweetener feedstock).