Valved, microwell cell-culture device and method

What is claimed: 1. A valved microfluidics device, comprising: a substrate, a microchannel through which liquid can be moved from one station to another within the device, and a pneumatic microvalve adapted to be switched between open and closed states to control the flow of fluid through a microchannel, said microvalve comprising: two or more flexible membranes forming a valved region of the microchannel, the two or more flexible membranes comprising a primary membrane forming a first wall portion of said valved region and one or more secondary membranes forming one or more second wall portions of said valved region, said one or more second membranes each joined to said primary membrane at a common edge, and a chamber formed in said substrate, separated from said microchannel by said primary membrane and adapted to receive a positive or negative fluid pressure, thus to deform said primary membrane, wherein deformation of said primary membrane causes said one or more secondary membranes to deform along said common edge and the combined deformation of the primary and secondary membranes is effective to switch the condition of the valve between its open and closed states. 2. The valved device of claim 1 , which further includes, for each secondary membrane, a recess formed in the substrate, into which the secondary membrane is deflected when deformed. 3. The valved device of claim 1 , wherein the primary membrane comprises a top-wall portion of said valved region and the one or more secondary membranes comprise a pair of opposite side-wall secondary membranes, wherein the valved region of said microchannel, with the valve in its open state, is substantially rectangular. 4. The valved device of claim 2 , wherein application of positive pressure to said chamber, to place the valve in its closed state, causes the primary membrane to bow outwardly into said channel, and the secondary membranes to bend outwardly at their common edges with the primary membrane, into the associated recesses, thus to enhance the extent of sealing between the primary membrane and the two secondary membranes as the primary membrane is deformed. 5. A microfluidic device comprising: an elastomeric monolith having a first and a second surface, microfluidic channels disposed in the first surface, and pneumatic control chambers disposed within the body of the monolith, the microfluidic channels further comprising at least one valved region, the at last one valved region comprising a primary membrane and one or more secondary membranes, the one or more secondary membranes joined to the primary membrane at a common edge; a rigid substrate bonded to the first surface and enclosing the microfluidic channels disposed therein; and a semi-rigid substrate bonded to the second surface of the elastomeric monolith; wherein the pneumatic control chambers are configured to receive a positive or negative fluid pressure to deform said primary membrane, wherein deformation of said primary membrane causes said one or more secondary membranes to deform along said common edge and the combined deformation of the primary and secondary membranes switches the condition of the valved region between opened and closed states. 6. The device of claim 5 , wherein said elastomeric monolith is assembled from a first elastomeric layer having microfluidic channels and a second elastomeric layer having pneumatic control chambers. 7. The device of claim 5 , wherein said semi-rigid substrate is a thermoplastic polymer sheet comprising a material selected from the group consisting of acrylic, polymethyl methacrylate, polycarbonate, polystyrene, polynorbornene, polyethylene terephthalate, polyethylene, polypropylene and poly(4-methyl-1-pentene). 8. The device of claim 5 , wherein said elastomeric monolith comprises a material selected from the group consisting of polyisoprene, polybutadiene, polyisobutylene, polyurethane, silicone, polysiloxane, and polydimethylsilozane. 9. The valved device of claim 1 , wherein said one or more secondary membranes are positioned perpendicularly to said primary membrane. 10. The valved device of claim 2 , wherein each recess formed in the substrate is adjacent to its secondary membrane and spaced opposite from the microchannel.