The field of polymer science has seen a transformative evolution with the development of self-healing biodegradable materials ...

Magnetic nanoparticles have emerged as pivotal tools in biomedical research, offering novel approaches to diagnostics and therapy. Their unique properties, including tunable magnetic behaviour, ...

Crystallization is ubiquitous in nature and semi crystalline polymers are of crucial importance in our daily life. Compared with small molecules, polymers crystallize via a more complex pathway ...

Biomedical engineering is an interdisciplinary field that combines the best of biology, medicine and engineering design to produce some of the world’s greatest healthcare innovations. Sound exciting?

Biomedical Engineering (BME) is the application of engineering principles and problem-solving techniques to biology and medicine. BME knowledge and skills play important roles in modern healthcare — ...

Researchers find solutions to the issues that are faced daily in medicine by combining biology with mathematics, physics, or chemistry. These research fields address various problems through the ...

How long does it take? This 129 credit program is designed to be completed in four years. Simply put, biomedical engineers develop technological solutions to medical problems. From prosthetic limbs ...

The Biomedical Engineering Doctor of Philosophy (PhD) degree provides the scientific foundation to prepare students for careers in the biomedical engineering industry and for advanced training in ...

A Biomedical Engineering Senior Design team at Stevens Institute of Technology is working with the U.S. Army and New Jersey physicians to develop a new device to combat hypothermia among wounded ...

The Department of Neuroscience and Biomedical engineering (NBE) is offering multiple summer employee positions for the summer 2026 in different research groups and topics. The results of the summer ...