Method, apparatus and formulation for an interpenetrating network polymer

1 . A method of forming an interpenetrating network (IPN) polymer material, the method comprising: (a) displacing a first liquid from a first container into a receptacle; (b) displacing a second liquid from a second container, which second liquid in the second container is not in contact with the first liquid, into the receptacle; (c) mixing the first and second liquids in the receptacle to cause previously-separated components in the first and second liquids to cross-link and/or synthesize at least a first polymer network of the IPN polymer material; (d) dispensing the mixture of the first and second liquids from the receptacle to a substrate prior to complete cross-linking and/or synthesis of the first polymer network; and (e) applying an input to the mixture of the first and second fluids prior to complete cross-linking and/or synthesis of the first polymer network, thereby initiating cross-linking of at least a second polymer network of the IPN polymer material substantially simultaneously with cross-linking and/or synthesis of at least a portion of said at least a first polymer network. 2 . The method in accordance with claim 1 , wherein the step of dispensing further comprises extruding the mixture of the first and second fluids through a nozzle in vertically-overlapping layers on the substrate. 3 . The method in accordance with claim 2 , wherein the step of applying an input further comprises directing ultraviolet (UV) light onto the mixture of the first and second fluids as the mixture is extruded from the nozzle. 4 . The method in accordance with claim 1 , wherein: (a) the step of mixing further comprises forcing the first and second liquids through a static mixing head; (b) the step of dispensing further comprises extruding the mixture of the first and second liquids from the static mixing head through a nozzle; and (c) the step of applying an input further comprises directing electromagnetic radiation onto the mixture of the first and second fluids as the mixture is extruded from the nozzle. 5 . The method in accordance with claim 4 , further comprising selectively displacing a third liquid from a third syringe into the static mixing head. 6 . The method in accordance with claim 4 , further comprising the step of soaking the interpenetrating network (IPN) polymer material in a calcium chloride solution. 7 . An apparatus for forming an interpenetrating network (IPN) polymer material, the apparatus comprising: (a) a first container holding a first liquid and in fluid communication with a receptacle; (b) a second container holding a second liquid and in fluid communication with the receptacle, wherein the receptacle is configured to form a mixture of the first and second liquids, thereby causing previously-separated components in the first and second liquids to cross-link and/or synthesize at least a first polymer network of the IPN polymer material; (c) a nozzle in fluid communication with the receptacle and through which the mixture of the first and second liquids is extruded prior to complete cross-linking and/or synthesis of the first polymer network; (d) at least one electromagnetic radiator mounted adjacent the nozzle to radiate energy onto the mixture of the first and second fluids as the mixture is extruded from the nozzle and prior to complete cross-linking and/or synthesis of the first polymer network, thereby initiating cross-linking and/or synthesis of at least a second polymer network of the IPN polymer material substantially simultaneously with cross-linking and/or synthesis of at least a portion of said at least a first polymer network; and (e) a substrate mounted beneath the nozzle and onto which the mixture of the first and second liquids is extruded. 8 . The apparatus in accordance with claim 7 , wherein said at least one electromagnetic radiator further comprises a plurality of ultraviolet lights. 9 . The apparatus in accordance with claim 7 , further comprising a third container holding a third liquid and fluidically connected to the receptacle. 10 . The apparatus in accordance with claim 7 , wherein the first and second containers are first and second syringes. 11 . A formulation for forming into an interpenetrating network (IPN) polymer material, the formulation comprising (a) about 1.0 to 4.0 wt % alginate; (b) about 14.0 to 20.0 wt % acrylamide; (c) about 0.0 to 40.0 wt % GDL plus CaCO 3 with respect to the weight of alginate; (d) about 0.004 to 1.0 wt % MBAA with respect to the weight of acrylamide; (e) about 0.2 to 5.0 wt % Irgacure 1173 with respect to the weight of acrylamide; and (f) a remainder water. 12 . The formulation in accordance with claim 11 , wherein the formulation further comprises: (a) about 2.0 to 3.0 wt % alginate; (b) about 15.0 to 18.0 wt % acrylamide; (c) about 10.0 to 20.0 wt % GDL plus CaCO 3 with respect to the weight of alginate; (d) about 0.1 to 0.8 wt % MBAA with respect to the weight of acrylamide; (e) about 1.5 to 3.0 wt % Irgacure 1173 with respect to the weight of acrylamide; and (f) a remainder water. 13 . The formulation in accordance with claim 12 , wherein the formulation further comprises: (a) about 2.5 wt % alginate; (b) about 17.5 wt % acrylamide; (c) about 15.0 wt % GDL plus CaCO 3 with respect to the weight of alginate; (d) about 0.6 wt % MBAA with respect to the weight of acrylamide; (e) about 2.3 wt % Irgacure 1173 with respect to the weight of acrylamide; and (f) a remainder water.