17-01-2018, 11:59 AM
abstract
In the small-diameter capillaries, there is a longitudinal semi-vertical vertical ultrasonic trap for the size-selective separation of the microscope. The trap uses the competition between the areas suspended in the liquid between the acoustic radiation force and the sticky drag forces between 20-75-M-fuse silica capillaries. Experiments used on 3.0- and 4.7-M-Latex regions demonstrated the principles of phosphate and verified the theoretically calculated size-dependent forces on the areas. The field showed by the use of laser-induced fluorescence. Its goal is to use the detection of proteins and other molecules to detect the separate and ultra-hydraulic sensitivity of two antigenic sites, by binding target molecules with high specificity for antibody-coated latex areas. © 2001 American Institute of Physics
In the small-diameter capillaries, there is a longitudinal semi-vertical vertical ultrasonic trap for the size-selective separation of the microscope. The trap uses the competition between the areas suspended in the liquid between the acoustic radiation force and the sticky drag forces between 20-75-M-fuse silica capillaries. Experiments used on 3.0- and 4.7-M-Latex regions demonstrated the principles of phosphate and verified the theoretically calculated size-dependent forces on the areas. The field showed by the use of laser-induced fluorescence. Its goal is to use the detection of proteins and other molecules to detect the separate and ultra-hydraulic sensitivity of two antigenic sites, by binding target molecules with high specificity for antibody-coated latex areas. © 2001 American Institute of Physics