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Development of single molecule total internal reflection fluorescence microscope

Cannataro, Frank
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Abstract
We mostly think and communicate science at the single-molecule level, but do experiments at the ensemble level. This gap between our thinking and experiments has been closing with the advent of single-molecule techniques nearly twenty years ago. Single-molecule techniques have proved very useful in probing individual molecules and heterogeneities, and have provided unprecedented insights into previously inaccessible scientific knowledge. Studying molecules one by one using single-molecule techniques has become very useful in revealing insights into mechanistic details hidden in ensemble experiments. I have built a total internal reflection fluorescence (TIRF) microscope with single-molecule sensitivity to study fluorescent molecules. The microscope is modular and multifunctional with capabilities including a wide excitation wavelength range (400-2000 nm) both in objective-type and prism-type TIRF configurations, localization accuracy ~1 nm, temporal resolution ~1 ms, and alternate laser excitation. As an application, we have measured high-throughput photoluminescent spectra of individual CdSe quantum dots.
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