Research Areas - (4) Orientation-Resolved Single-Molecule Microscopy

Full path: Chemistry > Physical Chemistry > Single-Molecule Spectroscopy > Orientation-Resolved Single-Molecule Microscopy

Department(s)/lab(s): Chemistry | Landes Lab @ UIUC
Summary:

Develops single-molecule spectroscopy and imaging/signal-processing methods to study protein dynamics at interfaces and predictive separations.

Department(s)/lab(s): Chemistry | PPSM - Single-Molecule Photochemistry (Metivier) @ ENSPS
Summary:

Metivier (PPSM) studies photochromic and fluorescent molecules at the single-molecule level - photoswitching kinetics, energy transfer and orientation-resolved imaging - underpinning super-resolution (RESOLFT/STORM-type) probes and molecular sensors. In the broader landscape of NV-centre ensemble quantum sensing (DEER, nano-NMR, T1 relaxometry) operating near pT/sqrt(Hz) sensitivity, this work is paralleled by molecular photoswitches enabling optical super-resolution.

Department(s)/lab(s): Chemistry | Moerner Lab @ Stanford
Summary:

Nobel laureate W. E. Moerner, who first detected and studied single molecules optically, now develops engineered point-spread-function and orientation-resolved single-molecule localization microscopy methods to track individual biomolecules and their rotational dynamics in cells with nanometer precision, well beyond the optical diffraction limit.

Department(s)/lab(s): Chemistry | Haw Yang Lab @ Princeton
Summary:

Yang's experimental physical chemistry lab designs new instrumentation to track single proteins, nanoparticles, and other emitters in three dimensions in real time within complex, heterogeneous environments, including a recent time-gated two-photon platform for high-speed 3D single-particle tracking. His group applies these single-molecule tracking and orientation-resolved imaging tools to protein conformational dynamics, functional nanostructures, and active-matter systems.