Resorting to skincare products without understanding the underlying ingredients is not ideal. A product is biocompatible if it works without interfering with the physiology of the skin, causing ...

Recent technological advances have opened new possibilities for the development of advanced biomedical devices that could be implanted inside the human body. These devices could be used to monitor ...

Figure 1: Comparison of the labelling efficiency in vitro and within the E. coli cytoplasm. Figure 2: Toxicity of Cu(I) complexes inside E. coli cells. Compartment-specific pH indicators derived from ...

Researchers from the University of Illinois at Urbana-Champaign have created bio-compatible LED arrays that can bend, stretch, and even be implanted under the skin. While this might cause some people ...

Scientists have announced a breakthrough method for manufacturing electrodes from conductive plastics using nothing but ...

A new study published in Science Advances by European scientists working in optoelectronics have created a biocompatible artificial intelligence (AI) platform that may enable a novel way for the early ...

Hydrogels are polymer materials made mostly from water. They can be used in a wide range of medical and other applications. However, previous incarnations of the materials suffered from repeated ...

Implantable medical devices such as hearing aids or pacemakers are of huge value, but keeping them charged up can involve clunky external power sources or repeated invasive surgeries to replace ...

New materials containing ultraviolet-absorbing molecules found in algae and reef-fish mucus could serve as nontoxic, biocompatible sunscreens (ACS Appl. Mater. Interfaces 2015, DOI: ...

From enhancing mobility and motor function to improving sensory capabilities, brain-computer interfaces (BCI) can expand our human capabilities by enabling seamless communication, improving cognitive ...