Solar cells produced from high Ohmic wafers and halogen containing paste

The invention claimed is: 1. A solar cell precursor comprising as precursor parts: i) a wafer with sheet resistance of at least 80 Ohm/square; ii) an electro-conductive paste comprising: a) metallic particles; b) a glass frit; c) an organic vehicle; and d) a halogen containing compound applied to the wafer; wherein the halogen containing compound comprises a ClO 4 − ion, and the halogen containing compound is present in the paste in a range from 10 to 40 mmol/kg based on the number of halogen atoms/ions and the total weight of the paste. 2. The solar cell precursor according to claim 1 , wherein the halogen containing compound is present in the paste in a range from 10 to 30 mmol/kg based on the number of halogen atoms/ions and the total weight of the paste. 3. The solar cell precursor according to claim 2 , wherein the halogen containing compound has a melting point in a range from 180 to 800° C. 4. The solar cell precursor according to claim 1 , wherein the glass frit is present in the paste as less than 4 wt. %. 5. The solar cell precursor according to claim 4 , wherein the halogen containing compound has a melting point in a range from 180 to 800° C. 6. The solar cell precursor according to claim 1 , wherein the halogen containing compound has a melting point in a range from 180 to 800° C. 7. The solar cell precursor according to claim 1 , wherein the metallic particles comprise Ag. 8. The solar cell precursor according to claim 1 , wherein the electro-conductive paste is on the front face of the wafer. 9. The solar cell precursor according to claim 1 , wherein the wafer has a sheet resistance of at least 90 Ohm/square. 10. The solar cell precursor according to claim 1 , wherein the halogen containing compound is present in the paste in a range from 10 to 20 mmol/kg based on the number of halogen atoms/ions and the total weight of the paste. 11. The solar cell precursor according to claim 1 , wherein the halogen containing compound comprises a counter-ion selected from Ag + and Zn 2+ . 12. The solar cell precursor according to claim 1 , wherein the halogen containing compound comprises Ag + as a counter-ion. 13. A process for the preparation of a solar cell comprising the steps: i) providing a solar cell precursor according to claim 1 ; ii) firing the solar cell precursor to obtain a solar cell. 14. The process according to claim 13 , wherein the maximum temperature during the firing step is less than 860° C. 15. A solar cell obtained by the process according to claim 13 . 16. A module comprising at least one solar cell according to claim 15 and at least a further solar cell.