It is the latest example of how the tools of artificial intelligence can be a revolutionary force in science and medicine. Antibiotics kill bacteria. However, there has been a lack of new drugs ...

Computer simulations highlight how bacteria slow their growth to avoid overcrowding, a behavior that may inform pathogen ...

Researchers have successfully developed a supramolecular fluorophore nanocomposite fabrication technology using nanomaterials and constructed a sustainable solar organic biohydrogen production system.

In other words, the team developed an artificial intelligence that can examine a sample of someone's microbiome (the ecosystem of bacteria on your body) and determine what specific places or types ...

The study, which was published in Molecular Medicine, found that artificial sweeteners like saccharin, acesulfame-K, and cyclamate inhibited the growth of antibiotic-resistant bacteria.

In a step towards treating and managing dental diseases, researchers have developed an artificial tongue capable of detecting and differentiating between different types of dental bacteria.

Now, researchers reporting in ACS Applied Materials & Interfaces have designed a chemical sensor array, or an artificial ...

Scientists are repurposing their research about bacteria-powered biobatteries into a new idea for artificial plants that can feed off carbon dioxide, give off oxygen and even generate a little power.