
We strive to innovate in ways that both advance the imaging science and also impact biological and translational research. We are particularly interested in new imaging physics, bottom-up opto-electronic system design, as well as new principles for light propagation, light-matter interaction and image formation in complex biological materials, especially at the single-molecule level. Toward the application end, we have expertise in a wide range of imaging instrumentation and techniques, such as super-resolution, adaptive optics, light-field, miniaturized, light-sheet, computational microscopy and endoscopy.
His multiplexing microscopy platform aims for super-resolution, ultra-fast 3D images of cells
New screening technique could accelerate and improve delivery of mRNA therapies
New grant from NIH supporting Cope lab’s work focused on long-term effects from platinum-based cancer drugs