In recent years, due to advances in technology, combined with MEMS and biomedical sensing element appeared. Base on the theory of Brownian motion, we established new bio-sensing technology in recent years. Such element has advantages that it’s simple to use, make and low price. In this study, we discuss the phenomena for the Brownian motion in micro-flow channel, including studies on the near-wall Brownian behaviors of particles, high volume fraction effect, how surface modification effects Brownian motion and how environmental solution effects Brownian motion, hope that by this study, we can improve this new sensing technology for optimal design. We use non-fluorescent nanoparticles to simulated high concentrations and use fluorescent particles in low volume fraction to trace the fluid, then use micro-Particle Tracking Velocimetry (PTV) for analysis. Then we change the environmental solutions, do surface modification and mixing different size of particles to simulate the conditions that may be encountered. From the study, we know that the diffusion coefficient of Brownian motion decreases as the particles near the boundary and high volume fraction. Furthermore, surface modification and sample made by different particles size also change particles Brownian behavior, hope that the results of the study can be used in the Brownian motion-based bio-sensing technology and increasing its accuracy.