Biophysics
Biophysics research applies the principles and analytical tools founded in the physical sciences to understand how biological systems function, starting from the scale of biomolecules (e.g. proteins, nucleic acids, and lipids) up to cells, tissues, whole organisms, and ecosystems.
In the School of Biomedical Sciences, our biophysicists make up a highly interdisciplinary community who integrates concepts and methods from chemistry, physics, mathematics, engineering, computer science, and material sciences and apply these perspectives to investigate fundamental questions in biology and medicine. Our biophysicists are using these strategies to tackle a wide array of scientific questions ranging from how cells feel their surroundings and how muscle or nerve cells communicate, to mapping the steps a virus undergoes in its journey to infecting a host cell, and investigating how knowledge of protein structure can be used for early diagnosis of non-communicable diseases.
The fundamental nature of biophysical research means that biophysicists are often at the heart of groundbreaking discoveries in medicine and innovations in bio and medical technologies that are essential for our society in facing the global challenges of today.