Abstract: Methods and apparatuses for controlling the size of microbubbles are provided herein. The methods include forming a microbubble in a liquid at an inlet end of a liquid microchannel, the liquid microchannel having an outlet end spaced from the inlet end and a liquid microchannel conduit extending therebetween. As the liquid is propelled along a length of the liquid microchannel, the liquid carry the microbubble, a negative pressure is applied to a first very low pressure microchannel having a first end, a second end spaced from the first end and a first very low pressure microchannel conduit extending between the first end and the second end and having a portion thereof being laterally spaced from and adjacent to a portion of the liquid microchannel conduit. The negative pressure withdraws air from the microbubble in the liquid microchannel to shrink the microbubble as the microbubble travels along the portion of the liquid microchannel conduit.

Abstract: Various embodiments are described herein for controlling the self-assembly process of paramagnetic particles and the final particle cluster size using a liquid-liquid interface. The number of paramagnetic particles within a particle cluster and coating at the liquid-liquid interface may be controlled by systematically varying the strength of an applied magnetic field gradient and the interfacial tension of the liquid-liquid interface.

Abstract: Various embodiments are described herein for controlling the self-assembly process of paramagnetic particles and the final particle cluster size using a liquid-liquid interface. The number of paramagnetic particles within a particle cluster and coating at the liquid-liquid interface may be controlled by systematically varying the strength of an applied magnetic field gradient and the interfacial tension of the liquid-liquid interface.