New potential antibiotic molecules were found to destroy biofilms and acted against gram-positive bacteria.
Will industrial-scale photocatalysis see the light of day?
Exploring how scientists can develop efficient, solar-powered reactions to convert carbon dioxide to useful chemical feedstocks.
Microcrystal robots that swim in water
Synthesized microrobots capable of converting their mechanical motion into a means of self-propulsion.
Drinking coffee out of coffee: The material potential of spent coffee grounds
Chemists improve the properties of bio-based resins using spent coffee grounds as a key ingredient.
Cleaning up ocean microplastics with MagRobot
Specially designed microrobots could help clean plastic waste from water systems.
Understanding the chemistry of 19th century paintings
Scientists at Sarbonne University reveal the chemical secrets behind the Romantic era’s most celebrated artists.
DOGS and CATS help design new natural product-based drugs
A new algorithm helps researchers search out new molecules for applications in medicine, keeping their synthesis quick and cost-effective.
Simple process significantly improves viability of antibacterial films
By simplifying the production steps needed to treat surfaces with antibacterial films, scientists hope they can become more widely adopted in clinical settings and beyond.
Neural networks overcome the setbacks of current computational drug discovery
Computer-aided drug discovery looks to neural networks that can better predict chemical properties to streamline the search for new therapeutics.
Self-frosting glass could revolutionize sustainable buildings
Scientists have developed a polymer-coated glass that can change from transparent to opaque when exposed to sunlight and heat.