Microfluidic Technology and Biomedical Field

It is seen that the development of microfluidic laboratories working passively on chips has increased over years. The field microfluidics includes use microstructured devices, which typically have micrometer sizes and allow precise processing low volumes. Nano fields are main nanotechnology, science such as earth science, organic chemistry, molecular biology, semiconductor physics, micromachinery where control atomic unit will take place. New techniques needed to meet existing needs for phase. Micro nano-volume multi-stage systems through micrometer-sized channels microfluidics, many applied branches, become widespread in engineering. circulation fluids examines factors can affect behavior fluids, surface tension, energy use, fluid resistance system. Microfluidic devices a variety functions replace routine biomedical analysis diagnostics. emphasizes higher level system integration with advanced automation, High Efficiency potential while consuming small amounts sample reagent less time. Thanks miniaturization, better diagnostic speed, cost effectiveness, ergonomics sensitivity be achieved. This article describes technology, including components. Literature review made studies completed or ongoing world wide. mechanisms, applications recent developments related listed. Presents current research topics possible future technology.