Tracking single quantum dot and its spectrum in free solution with controllable thermal diffusion suppression

Thermal motions of semiconductor quantum dots (QDs) are suppressed on a dehydrated agarose-modified surface. The diffusion coefficients (D) of particles can be controlled by modifying the surface with an appropriate agarose concentration. The value of D is more than 100 times lower than the theoretical value when the dried agarose surface is made with an 8% agarose solution. This makes it possible to real-time record the diffusion process of single particles and single molecules in low-viscosity solution. A transmission grating installed in front of the charge-coupled device separates the QD fluorescence into the zeroth-order and first-order spectrum. Therefore, the spectrum of dynamic QDs is tracked on the modified surface. Tracking the dynamic QD spectral image is a promising method to explore the process of the molecular interactions in the physiological buffer.