Method of negative electrode pre-lithiation for lithium-ion capacitors

We claim: 1. A method for lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium metal thin film having holes in a roll-to-roll process, comprising the steps of: (a) the manufacturing process should be done in a temperature and humidity controlled clean and dry room; (b) providing the negative electrode sheet and the top Li thin film having holes and bottom Li thin film having holes; (c) feed roll insertion of the bottom Li thin film having holes through tension control rolls and the lamination rolls; (d) feed roll and the insertion of the negative electrode sheet through the tension control rolls and into the lamination rolls; (e) feed roll insertion of the top Li thin film having holes through the tension rolls and into the lamination rolls; and (f) exertion of pressure on the lamination rolls and the extension of the laminated Li loaded negative electrode sheet through the tension control rolls and on to the take up roll to be completed and ready for use in Li-ion capacitors; wherein there is no adhesive drying time and no heat required on the lamination rolls, the pressure may be adjusted to a pressure range of from 40 to 400 kg/cm 2 as required to press the top Li thin film having holes and bottom Li foil thin film having holes into the negative electrode sheet and the gap between the top and bottom lamination rolls may be adjusted according to the laminated Li loaded negative electrode sheet requirements. 2. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 1 , wherein the width range of said negative electrode is from 2 mm to 300 mm. 3. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 1 , wherein the thickness range of said negative electrode is from 20 μm to 400 μm. 4. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 1 , wherein the said negative electrode material includes graphite, hard carbon and soft carbon. 5. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 1 , wherein the width range of said lithium films is from 2 mm to 300 mm. 6. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 5 , wherein the area of the loaded thin Li film having holes is from 25% to 100% of the area of the negative electrode. 7. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 1 , wherein the thickness range of said lithium films is from 2 μm to 50 μm. 8. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 7 , wherein the mass ratio of the Li loading weight to the negative electrode active layer weight is from 3% to 20%. 9. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 1 , wherein the area size percentage range of said holes in lithium films is from 0.01% to 75%. 10. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 1 , includes a top lithium film and a bottom lithium film. 11. The method of lithium loaded electrode manufacturing for lithium-ion capacitors wherein a lithium loaded negative electrode is manufactured using lithium thin film having holes in a roll-to-roll process, according to claim 10 , further includes a top lithium film and a bottom lithium film, wherein the locations of said top lithium film and said bottom lithium film are the same on each side of negative electrode.