Detection and Characterization of Individual Nanoparticles in a Liquid by Photothermal Optical Diffraction and Nanofluidics.

Detection and characterization of individual nanoparticles less than 100 nm are important for semiconductor manufacturing, environmental monitoring, biomedical diagnostics, and drug delivery. Photothermal spectroscopy is a light absorptiometry and promising method for detection and characterization because of its high sensitivity and selectivity compared with light scattering or electrical detection methods. However, the characterization of individual nanoparticles in liquids is still challenging for conventional photothermal detection methods. Here, we report a method for the ultrasensitive detection and accurate characterization of individual nanoparticles in liquids by photothermal optical diffraction, which utilizes enhancement of optical diffraction by a nanochannel after light absorption and heat generation of individual nanoparticles in the channel. Our method realized individual 20 nm Au nanoparticle detection with almost 100% detection efficiency by utilizing nanochannels, leading to concentration determination without a calibration curve. Furthermore, we measured individual nanoparticle size and discriminated 20 and 40 nm Au nanoparticles from their photothermal signals. Our photothermal-based nanoparticle detection method in nanochannels has a potential for a wide range of applications such as on-site evaluation of synthesized plasmonic nanoparticles and drug delivery particles.