Magnetic stage with environmental control for optical microscopy and high-speed nano-and microrheology.

Autor: Aprelev, Pavel, McKinney, Bonni, Walls, Chadwick, Korneva, Konstanin G.
Předmět:
Zdroj: Physics of Fluids; 2017, Vol. 29 Issue 7, p1-13, 13p, 1 Color Photograph, 2 Diagrams, 7 Graphs
Abstrakt: A novel design of a low-field magnetic stage for optical microscopy of droplets and films within a controlled environment is described. The stage consists of five magnetic coils with a 3D magnetic sensor in a feedback control loop, which allows one to manipulate magnetic nano-and microprobes with microtesla fields. Alocally uniform time-dependent field within the focal plane of the microscope objective enables one to rotate the probes in a precisely set manner and observe their motion. The probe tracking protocolwas developed to followthe probe rotation in real time and relate it with the viscosity of the host liquid. Using this magnetic stage, a method for measuring mPa s-level viscosity of nanoliter droplets and micron thick films in a 10-20 s timeframe is presented and validated. The viscosity of a rapidly changing liquid can be tracked by using only a few visible probes rotating simultaneously. Vapor pressure and temperature around the sample can be controlled to directly measure viscosity as a function of equilibrium vapor pressure; this addresses a significant challenge in characterization of volatile nanodroplets and thin films. Thin films of surfactant solutions undergoing phase transitions upon solvent evaporation were studied and their rheological properties were related to morphological changes in the material. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index
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