Identifying Single Particles in Air Using a 3D-Integrated Solid-State Pore.
Takashi WashioKazumichi YokotaTakeshi YoshidaChie HotehamaHiroe KowadaYuko EsakiMasateru TaniguchiTakashi WashioTomoji KawaiPublished in: ACS sensors (2019)
Solid-state micro- and nanopores are a versatile sensor platform capable of detecting single particles in electrolyte solution by cross-pore ionic current. Here we report on a use of this technology to identify airborne particulate matter. The detection concept lies in an electrophoretic control of air-floating particles captured in liquid to deliver them into a pore detector via microfluidic channels. We demonstrate resistive pulse measurements to machine-learning-based discriminations of intragranular contents of cypress and cedar pollens at a single-particle level. This all-electrical-sensor technique would pave a new venue toward real-time monitoring of single particles and molecules in air.