Situ filling and sealing of electrowetting intraocular lenses

What is claimed is: 1. An eye-implantable device comprising: an electrowetting lens, wherein the electrowetting lens comprises: a lens chamber; a polymeric material, wherein the polymeric material at least partially encloses the lens chamber; a first electrode, wherein the first electrode is disposed on a first internal surface of the polymeric material; a second electrode, wherein the second electrode is disposed on a second internal surface of the polymeric material, wherein the second electrode comprises a dielectric coating; and a septum, wherein the septum blocks a fluid pathway into the lens chamber from outside of the eye-implantable device, such that the septum can be penetrated and a first fluid introduced into the lens chamber through the fluid pathway from outside of the eye-implantable device such that the first fluid contacts the second electrode but not the first electrode. 2. The eye-implantable device of claim 1 , further comprising a second fluid, wherein the second fluid is disposed in the lens chamber, wherein the first electrode and the second electrode are in contact with the second fluid. 3. The eye-implantable device of claim 2 , wherein the polymeric material is flexible such that the electrowetting lens can be folded. 4. The eye-implantable device of claim 2 , wherein the fluid pathway comprises a channel between the septum and the lens chamber. 5. The eye-implantable device of claim 2 , wherein the septum comprises a silicone rubber. 6. An eye-implantable device comprising: an electrowetting lens, wherein the electrowetting lens comprises: a lens chamber; a polymeric material, wherein the polymeric material at least partially encloses the lens chamber; a first electrode, wherein the first electrode is disposed on a first internal surface of the polymeric material; a second electrode, wherein the second electrode is disposed on a second internal surface of the polymeric material, wherein the second electrode comprises a dielectric coating; and a tube that protrudes from the eye-implantable device, wherein the tube provides at least a portion of a fluid pathway into the lens chamber from outside of the eye-implantable device, such that a first fluid can be introduced into the lens chamber through the tube from outside of the eye-implantable device such that the first fluid contacts the second electrode but not the first electrode. 7. The eye-implantable device of claim 6 , further comprising a second fluid, wherein the second fluid is disposed in the lens chamber, wherein the first electrode and the second electrode are in contact with the second fluid. 8. The eye-implantable device of claim 7 , wherein the polymeric material is flexible such that the electrowetting lens can be folded. 9. The eye-implantable device of claim 7 , wherein the tube includes a crimpable portion, and wherein crimping the crimpable portion of the tube inhibits fluid flow out of the eye-implantable device via the tube. 10. A method comprising: forming an incision through a cornea of an eye; inserting an eye-implantable device into the eye through the incision, wherein the eye-implantable device comprises: an electrowetting lens, wherein the electrowetting lens comprises: (i) a lens chamber, (ii) a polymeric material, wherein the polymeric material at least partially encloses the lens chamber, (iii) a first electrode, wherein the first electrode is disposed on a first internal surface of the polymeric material, (iv) a second electrode, wherein the second electrode is disposed on a second internal surface of the polymeric material, wherein the second electrode comprises a dielectric coating, and (v) a septum, wherein the septum blocks a fluid pathway into the lens chamber of the electrowetting lens from outside of the eye-implantable device; placing the eye-implantable device at a specified location within the eye; piercing the septum with a needle; and introducing a second fluid into the lens chamber via the needle when a first fluid is already present in the lens chamber such that the second fluid contacts the second electrode but not the first electrode, wherein the second fluid is immiscible with the first fluid, and wherein a refractive index of the second fluid differs from a refractive index of the first fluid. 11. The method of claim 10 , wherein the electrowetting lens is flexible such that the electrowetting lens can be folded, wherein inserting an eye-implantable device into the eye through the incision comprises inserting the eye-implantable device in a folded state, and further comprising: subsequent to inserting the eye-implantable device into the eye through the incision, unfolding the electrowetting lens of the eye-implantable device. 12. The method of claim 11 , wherein the incision is less than 4 millimeters long. 13. The method of claim 10 , further comprising rinsing the lens chamber, wherein rinsing the lens chamber comprises introducing an amount of the first fluid into the lens chamber via the needle. 14. The method of claim 10 , wherein the eye-implantable device further comprises a tube that protrudes from the eye-implantable device, wherein the tube provides at least a portion of the fluid pathway into the lens chamber from outside of the eye-implantable device, and wherein the method further comprises: crimping the tube, wherein crimping the tube inhibits fluid flow out of the eye-implantable device via the tube. 15. A method comprising: forming an incision through a cornea of an eye; inserting an eye-implantable device into the eye through the incision, wherein the eye-implantable device comprises: an electrowetting lens, wherein the electrowetting lens comprises: (i) a lens chamber, (ii) a polymeric material, wherein the polymeric material at least partially encloses the lens chamber, (iii) a first electrode, wherein the first electrode is disposed on a first internal surface of the polymeric material, (iv) a second electrode, wherein the second electrode is disposed on a second internal surface of the polymeric material, wherein the second electrode comprises a dielectric coating, and (v) a tube that protrudes from the eye-implantable device, wherein the tube provides at least a portion of a fluid pathway into the lens chamber of the electrowetting lens from outside of the eye-implantable device; placing the eye-implantable device at a specified location within the eye; introducing a second fluid into the lens chamber via the tube when a first fluid is already present in the lens chamber such that the second fluid contacts the second electrode but not the first electrode, wherein the second fluid is immiscible with the first fluid, and wherein a refractive index of the second fluid differs from a refractive index of the first fluid; and cutting the tube. 16. The method of claim 15 , wherein the electrowetting lens is flexible such that the electrowetting lens can be folded, wherein inserting an eye-implantable device into the eye through the incision comprises inserting the eye-implantable device in a folded state, and further comprising: subsequent to inserting the eye-implantable device into the eye through the incision, unfolding the electrowetting lens of the eye-implantable device. 17. The method of claim 16 , wherein the incision is less than 4 millimeters long. 18. The method of claim 15 , further comprising crimping the tube, wherein crimping the tube inhibits fluid flow out of the eye-implantable device via the tube. 19. The method of claim 15 , further comprising rin