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A parallel dielectrophoretic single particle trap lab-on-a-chip system has been constructed and utilized to characterize the physical, electrical, and biological properties of single particle. We show proof-of-concept for the array of dielectrophoretic single particle trap that captures individual micro-/nano-particles in each trap.
Dielectrophoretic traps have been broadly studied in light of their many advantages of high controllability, ease of operation, and high efficiency. Most studies are confined to the trapping of a large number of particles and analyzing general traits of the particles. Here, we demonstrate an optimized array of dielectrophoretic traps using numerical methods. The array of traps can be used to evaluate...
The concentration of C-reactive protein (CRP), a classic acute phase plasma protein, increases rapidly in response to tissue infection or inflammation, especially in cases of cardiovascular disease and stroke. Thus, highly sensitive monitoring of the CRP concentration plays a pivotal role in detecting these diseases. Many researchers have studied methods for the detection of CRP concentrations such...
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