Yuezhen Liu scite author profile

Sensing of key parameters in fluidic environments has attracted extensive attention because the physical features of body fluids could be used for point-of-care disease diagnosis. Although various sensing methods have been investigated, effective sensing strategies of microenvironments remains a major challenge. In this paper, we propose an approach that can realize sensing of fluidic viscosity and ionic strength using microswarms formed by simple colloidal nanoparticles. The influences of fluidic ionic strength and viscosity on two swarm behaviors are analyzed (i.e., the spreading of circular vortex-like swarms and the elongation of elliptical swarms). The data models for quantifying the fluidic viscosity and ionic strength are obtained from experiments, and the fluidic features can be sensed successfully using the swarm behaviors. Furthermore, we demonstrate that the microswarms have the capability of passing through tortuous and narrow microchannels for sensing. Continuous sensing of different fluidic environments using swarms is also realized. Finally, the sensing of viscosity and ionic strength of porcine whole blood is presented, which also validates the feasibility of the sensing strategy.

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Production of hydrocarbon-rich bio-oil from soapstock via fast microwave-assisted catalytic pyrolysis

Dai

Duan

et al. 2017

Journal of Analytical and Applied Pyrolysis

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Yuezhen Liu

Calf thymus ds-DNA intercalation with pendimethalin herbicide at the surface of ZIF-8/Co/rGO/C3N4/ds-DNA/SPCE; A bio-sensing approach for pendimethalin quantification confirmed by molecular docking study

Microwave-assisted catalytic fast co-pyrolysis of bamboo sawdust and waste tire for bio-oil production

Sensing of Fluidic Features Using Colloidal Microswarms

Production of hydrocarbon-rich bio-oil from soapstock via fast microwave-assisted catalytic pyrolysis

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