J.T. Donald Lecture: William E. Moerner - What Is a Single Molecule, and What Can You Do With It?
Abstract:
A single molecule is ridiculously tiny, about 1 nanometer, roughly 100,000 times smaller than the diameter of a human hair. Yet individual molecules rule the nanoscale activity and structure in our cells. Thirty years ago, single molecules were first detected optically, but how do we really detect a single molecule today, and what good is it? It is an amazing fact that you can even detect single molecules with your own eyes. When a new regime of science is breached, surprises often occur: single molecules show amazing dynamics, blink on and off, and can be controlled by light. Far from being only an esoteric effect, these 鈥渟witching properties鈥 of molecules can now be used to obtain 鈥渟uper-resolution鈥 to see the tiny nanoscale structures inside cells. Essentially, with tiny single-molecule light sources decorating a structure, the on/off process is used to light up only subsets at a time, and a pointillist reconstruction reveals the hidden nanometer-scale structure, opening up a new frontier for understanding and applications. And if we watch single molecules moving around, we learn about details of local environments and time-dependent changes inside cells.
Bio:
William Esco Moerner聽(born June 24, 1953) is an American聽physical chemist聽and聽chemical physicist聽with current work in the聽biophysics聽and imaging of single molecules. He is credited with achieving the first optical detection and聽spectroscopy of a single molecule聽in聽condensed phases, along with his postdoc, Lothar Kador.聽Optical study of single molecules has subsequently become a widely used聽single-molecule experiment聽in chemistry, physics and biology.聽In 2014, he was awarded the聽Nobel Prize in Chemistry.