Pop-up laminate structures with integrated electronics

What is claimed is: 1. A laminate device for manipulating or altering structures, the device comprising: a laminate stack comprising two sub-modules, each comprising at least one rigid substrate laminated to a less-rigid flexible layer, wherein each sub-module includes a body and a jaw extending from the body, and wherein the sub-modules are joined at the body and biased so that the jaws are in contact (closed) or spread apart (open); and an actuation device, wherein the actuation device includes at least one actuator selected from a shape memory alloy actuator and a piezoelectric actuator, wherein the actuator is coupled with at least one of the jaws and configured to overcome the bias and actuate the jaw(s) to open or close the jaws when displaced. 2. The laminate device of claim 1 , wherein the jaws include end effectors configured to grasp or join structures. 3. The laminate device of claim 1 , wherein the jaws include blades for cutting structures. 4. The laminate device of claim 1 , wherein the jaws are configured to separate by a maximum of 0.1 to 10 mm when opened. 5. The laminate device of claim 1 , further comprising an electrically conductive layer including electrical wiring in at least one of the sub-modules. 6. The laminate device of claim 5 , further comprising a strain gauge mounted on or in at least one of the jaws, electrically coupled with the electrical wiring, and configured to detect force acting on the jaw. 7. The laminate device of claim 5 , further comprising at least one electrode in at least one of the jaws for electrocauterization or ablation, wherein the electrode is electrically coupled with the electrical wiring. 8. The laminate device of claim 1 , wherein each sub-module of the laminate stack includes at least the following five sub-layers: a flexible layer, adhesive layers on both sides of the flexible layer, and two rigid structural layers bonded to the adhesive layers. 9. The laminate device of claim 1 , further comprising a restoring element that biases the submodules to force the jaws in contact with one another or to force the jaws apart from one another when unactuated. 10. A method for micro-surgery, comprising: percutaneously inserting the laminate device of claim 1 into an organism; and a) grasping, cutting or connecting at least one internal organ, tissue, or vessel in the organism with the jaws of the laminate device; or b) manipulating another surgical tube inside the organism with the laminate device. 11. The method of claim 10 , further comprising actuating the jaws inside the body by at least one of the following: altering the shape of the shape memory alloy actuator coupled with at least one of the jaws; and applying a voltage to the piezoelectric actuator coupled with at least one of the jaws. 12. The method of claim 11 , further comprising detecting interaction with the organ, tissue or organism by detecting a change in resistance of a strain gauge mounted on or in at least one of the jaws.