Hydrogel network

The invention claimed is: 1. A hydrogel network comprising a plurality of hydrogel objects, wherein each of said hydrogel objects comprises: (a) a hydrogel body, and (b) an outer layer of amphipathic molecules, on at least part of the surface of the hydrogel body, wherein each of said hydrogel objects contacts another of said hydrogel objects to form an interface between the hydrogel objects; wherein said plurality of hydrogel objects comprises a first hydrogel object and a second hydrogel object, wherein each of the first and second hydrogel objects comprises: (a) a hydrogel body, and (b) an outer layer of amphipathic molecules, on at least part of the surface of the hydrogel body, wherein the first hydrogel object contacts the second hydrogel object to form an interface between the first and second hydrogel objects; and the hydrogel body of the first hydrogel object is in direct contact with the hydrogel body of the second hydrogel object, at the interface between the first and second hydrogel objects. 2. A hydrogel network according to claim 1 wherein the interface between the first and second hydrogel objects does not comprise a bilayer of amphipathic molecules. 3. A hydrogel network according to claim 1 wherein said plurality of hydrogel objects further comprises a third hydrogel object, wherein the third hydrogel object comprises: (a) a hydrogel body, and (b) an outer layer of amphipathic molecules, on at least part of the surface of the hydrogel body, wherein the first or second hydrogel object contacts the third hydrogel object to form an interface between the first or second hydrogel object and the third hydrogel object. 4. A hydrogel network according to claim 3 wherein the first hydrogel object contacts the third hydrogel object to form an interface between the first and third hydrogel objects, and wherein the second hydrogel object contacts the third hydrogel object to form an interface between the second and third hydrogel objects. 5. A hydrogel network according to claim 1 wherein the network comprises at least n of said hydrogel objects, and at least n−1 of said interfaces between hydrogel objects, wherein n is equal to or greater than 2. 6. A hydrogel network according to claim 3 , wherein at least one of the interfaces between hydrogel objects comprises a bilayer of amphipathic molecules. 7. A hydrogel network according to claim 3 wherein at least one of the interfaces between hydrogel objects comprises a bilayer of amphipathic molecules, and at least one other of the interfaces between hydrogel objects does not comprise a bilayer of amphipathic molecules. 8. A hydrogel network according to claim 3 wherein at least one of the interfaces between hydrogel objects comprises a bilayer of amphipathic molecules, and wherein the hydrogel body of one hydrogel object is in direct contact with the hydrogel body of another hydrogel object at at least one other of the interfaces between hydrogel objects. 9. A hydrogel network according to claim 1 wherein the hydrogel body of at least one of said hydrogel objects is a molded three-dimensional hydrogel shape. 10. A hydrogel network according to claim 9 wherein the three-dimensional shape is spherical, cross-shaped, cuboid, crescent-shaped, prism-shaped, cylindrical, wire-shaped or a shape which has a triangular, pentagonal, hexagonal, heptagonal, octagonal, nonagonal, decagonal, undecagonal, dodecagonal, square or rectangular face. 11. A hydrogel network according to claim 1 wherein the hydrogel body of at least one of said hydrogel objects is in the shape of a wire. 12. A hydrogel network according to claim 8 wherein at least one of said bilayers further comprises a membrane protein, wherein the membrane protein is a pump, channel or a pore, a receptor protein, a transporter protein, or a protein which effects cell recognition or a cell-to-cell interaction. 13. A hydrogel network according to claim 1 wherein the hydrogel body comprises a hydrogel comprising agarose. 14. A hydrogel network according to claim 1 , wherein the amphipathic molecules comprise lipid molecules. 15. A hydrogel network according to claim 1 which further comprises a hydrophobic medium, wherein the plurality of hydrogel objects is disposed in the hydrophobic medium. 16. A hydrogel network comprising a plurality of hydrogel objects, wherein each of said hydrogel objects comprises: (a) a hydrogel body, and (b) an outer layer of amphipathic molecules, on at least part of the surface of the hydrogel body, wherein each of said hydrogel objects contacts another of said hydrogel objects to form an interface between the hydrogel objects; wherein at least one of said plurality of hydrogel objects is a Janus particle comprising: (a) a hydrogel body comprising a hydrophilic material and a hydrophobic material, and (b) an outer layer of amphipathic molecules, on at least part of the surface of the hydrogel body. 17. A hydrogel network according to claim 16 , wherein the hydrophilic material is on one side of the hydrogel body and the hydrophobic material is on the other side of the hydrogel body.