Microfluidic device

The invention claimed is: 1. A microfluidic device for generating monodisperse emulsions, comprising: (1) a substrate having an upper surface and a lower surface, and defining an emulsion forming zone, wherein said upper surface and said lower surface have a thickness between each other; (2) a first capillary inlet formed on said upper surface of said substrate for passage of a first liquid therethrough; (3) a second capillary inlet formed on said upper surface of said substrate for passage of a second liquid therethrough, the second liquid being immiscible with the first liquid; (4) a microfluidic channel unit formed in said substrate and having a high affinity for the first liquid, said microfluidic channel unit including a main channel which extends through said emulsion forming zone to terminate at a proximal end and a distal end disposed downstream of said proximal end, a first sub-channel disposed downstream of said first capillary inlet and upstream of said proximal end such that the first liquid is drawn into said first sub-channel through said first capillary inlet by virtue of capillary action of the first liquid and is further drawn into said main channel by the affinity between the first liquid and said microfluidic channel unit, and a second sub-channel disposed downstream of said second capillary inlet and upstream of said proximal end to permit the second liquid to be drawn into said second sub-channel through said second capillary inlet by virtue of capillary action of the second liquid; (5) an outlet formed on said lower surface of said substrate and disposed downstream of said distal end of said main channel; and (6) a suction member that is made from a shape memory polymer and is disposed downstream of said outlet, wherein said suction member is transformable between a permanent state and a temporary state when subjected to heat, electricity, or light; and said suction member is configured to provide a predetermined suction force such that the second liquid in said second sub-channel is permitted to penetrate into the first liquid in said main channel so as to break up into droplets in the first liquid, thereby generating monodisperse emulsions in said emulsion forming zone. 2. The microfluidic device according to claim 1 , wherein said main channel is meander-shaped and includes a plurality of enlarged regions which are parallel to each other. 3. The microfluidic device according to claim 1 , wherein said lower surface of said substrate has an attaching region configured to surround said outlet; said suction member has a top surface which includes an attachment region and a cavity surrounded by said attachment region, the cavity extending downward to terminate at a bottom region; and said suction member is transformable between the permanent state and the temporary state, the permanent state being a state where said attachment region is higher than said bottom region by a predetermined height and the temporary state being a state where said bottom region is flush with said attachment region, said attachment region being configured to mate with said attaching region such that when said attachment region in the temporary state is brought into fluid-tight engagement with said attaching region, thereby bringing said outlet into registering with said bottom region, the predetermined suction force is generated in response to transformation of said suction member from the temporary state to the permanent state. 4. The microfluidic device according to claim 3 , wherein said suction member is a modular structure such that said cavity has a standardized volume for generating the predetermined suction force when said suction member is transformed from the temporary state to the permanent state. 5. The microfluidic device according to claim 4 , further comprising an adhesive layer disposed on said attachment region of said suction member, and a releasable layer which covers said adhesive layer. 6. The microfluidic device according to claim 1 , wherein said substrate is a laminate including an upper layer and a lower layer, said upper layer being made from a transparent material; said microfluidic channel unit is disposed between said upper and lower layers; said first and second capillary inlets extend through said upper layer and are in fluid communication with said first and second sub-channels, respectively; and said outlet extends through said lower layer and is in fluid communication with said distal end of said main channel. 7. The microfluidic device according to claim 1 , wherein said microfluidic channel unit has a lipophilic affinity, the first liquid being an oily liquid and the second liquid being an aqueous liquid.