Nanotechnology, a groundbreaking field that involves manipulating matter at the molecular and atomic levels, is rapidly ...

Against the backdrop of aging, chronic diseases, and a growing population, the healthcare system is going through a vital transformation. Healthcare is simply becoming increasingly individual-centric.

A biomaterial that can mimic certain behaviors within biological tissues could advance regenerative medicine, disease ...

Medical implants have transformed health care, offering innovative solutions with advanced materials and technologies.

Researchers have developed a way to print nanoparticles like ink, creating inexpensive sweat sensors that can continuously monitor multiple molecules.

These nanoparticles exhibit unique physical, chemical, and optical properties that differ from bulk gold, making them attractive for various applications in medicine, catalysis, electronics, and ...

Biocompatibility is a key challenge for medical implants, so researchers have engineered apatite nanoparticles with enhanced ...

Synthetic nanoparticles are used in a range of applications, such as in electronics, energy, medicine, and catalysis, due to their unique properties that arise from their small size and high surface ...

Understanding the way nanoparticles interact with living matter will open up fundamentally new opportunities in medicine and diagnostics. This knowledge equally imposes on us the necessity for ...

Tiny plastic particles may accumulate at higher levels in the human brain than in the kidney and liver, with greater ...

Part of a new field called nanobiotechnology, the UB scientists are designing these nanoparticle systems to contain multiple contrast agents for different imaging medical techniques. The goal is ...

Caltech manufactures wearable sweat sensors equipped with special nanoparticles that inkjet print a biomarker, enabling ...