Nanopore device for reversible ion and molecule sensing or migration

What is claimed is: 1. A nanopipette for measuring pH of a sample, the nanopipette comprising: (a) a capillary portion defining an interior bore of the nanopipette leading to a nanopore; (b) the interior bore adapted for containing therein an electrode and an interior solution communicating with an exterior solution through said nanopore; and (c) a coating on an interior surface of the nanopore, the coating comprising: (i) a polyelectrolyte layer bound directly to the interior surface; and (ii) a chitosan molecule linked to the polyelectrolyte layer. 2. The nanopipette of claim 1 , wherein the polyelectrolyte layer is a polyacrylic layer. 3. The nanopipette of claim 1 , wherein the nanopipette is a quartz nanopipette. 4. The nanopipette of claim 1 , wherein the nanopipette is a glass nanopipette. 5. The nanopipette of claim 1 , wherein the nanopore opening has an outer diameter of less than 1 mm. 6. The nanopipette of claim 1 , wherein the nanopore opening has inner diameter of less than 200 nm. 7. The nanopipette of claim 1 , wherein the nanopore opening has inner diameter of 40-60 nm. 8. The nanopipette of claim 1 , wherein the coating comprises alternating layers of polyacrylic and chitosan. 9. A nanopipette apparatus for measuring pH of a sample, the apparatus comprising: (a) a nanopipette having an interior bore and a nanopore opening into the sample; (b) an electrode within the interior bore, arranged to contact an interior solution, and a reference electrode positionable in the sample; (c) a coating on an inner surface of the nanopore; (d) the coating comprising: (i) a polyelectrolyte layer bound directly to the interior surface; and (ii) a chitosan molecule linked to the polyelectrolyte layer; and (e) a voltage control circuit for generating a voltage between electrodes and measuring ionic current through the sample, the nanopore, and the interior solution. 10. The nanopipette apparatus of claim 9 , wherein the nanopipette is quartz. 11. The nanopipette apparatus of claim 9 , wherein the polyelectrolyte layer is a polyacrylic layer. 12. A method for measuring pH of a sample, the method comprising: contacting the sample with the nanopipette apparatus of claim 9 ; and using the voltage control circuit for measuring ionic current, wherein the current is correlated to pH of the sample. 13. The method of claim 12 , wherein the nanopipette is quartz. 14. The method of claim 12 , wherein the polyelectrolyte layer is a polyacrylic layer. 15. The method of claim 12 , wherein the sample comprises a single cell and the method measures pH of the cell. 16. The nanopipette of claim 9 , wherein the nanopipette is a glass nanopipette. 17. The nanopipette of claim 9 , wherein the nanopore opening has an outer diameter of less than 1 mm. 18. The nanopipette of claim 9 , wherein the nanopore opening has inner diameter of less than 200 nm. 19. The nanopipette of claim 9 , wherein the nanopore opening has inner diameter of 40-60 nm. 20. The nanopipette of claim 9 , wherein the coating comprises alternating layers of polyacrylic and chitosan.