10.1021/ac2017458.s005
Kai Zhang
Kai
Zhang
Qionglin Liang
Qionglin
Liang
Xiaoni Ai
Xiaoni
Ai
Ping Hu
Ping
Hu
Yiming Wang
Yiming
Wang
Guoan Luo
Guoan
Luo
Comprehensive Two-Dimensional Manipulations of Picoliter Microfluidic Droplets Sampled from Nanoliter Samples
American Chemical Society
2011
Picoliter Microfluidic Droplets Sampled
droplet manipulations
method
droplet arrays
microwell
2011-10-15 00:00:00
Media
https://acs.figshare.com/articles/media/Comprehensive_Two_Dimensional_Manipulations_of_Picoliter_Microfluidic_Droplets_Sampled_from_Nanoliter_Samples/2601835
A facile method is presented for achieving comprehensive two-dimensional droplet manipulations in closed microstructures consisting of microwell arrays and a straight microchannel. In this method, picoliter/nanoliter droplets with controllable sizes and numbers are sampled from nanoliter samples/reagents with almost 100% efficiency. Droplet motions are precisely controlled in the ±<i>X</i>-direction and ±<i>Y</i>-direction by managing hydrostatic pressure and magnetic repulsion, respectively. As a demonstration, a fluorescein-labeled droplet and a deionized droplet are successively generated and trapped in adjacent microwells. Then their positions are quickly exchanged without cross-contamination and fusion is implemented on-demand. After operations, hydrophobic ferrofluid can be completely replaced by mineral oil and droplets still remain in microwells safely. A typical fluorescence intensity-based assay is demonstrated: droplet arrays containing copper ion are diluted disproportionately first and then detected by addition of droplet arrays containing Calcein. With the ability of comprehensive two-dimensional droplet manipulations, this method could be used in various miniaturized biochemical analyses including requirements of multistep procedures and in situ monitoring.