Lithium secondary battery and manufacturing method thereof

The invention claimed is: 1. A method of manufacturing a lithium secondary battery, comprising the steps of: forming a negative electrode comprising an active material layer over a current collector, the active material layer comprising a plurality of whisker-like portions; after the forming step, electrochemically inserting lithium into the negative electrode with use of a counter electrode, after the inserting step, electrochemically extracting a part of the lithium inserted into the negative electrode, and after the extracting step, assembling the lithium secondary battery comprising the negative electrode, wherein each of the plurality of whisker-like portions consists of silicon, and wherein a remained lithium in the negative electrode after the extracting step is greater than or equal to 9% and less than or equal to 43% of a total capacity of the negative electrode. 2. The method of manufacturing a lithium secondary battery, according to claim 1 , wherein the inserting step is performed with a potential difference between the negative electrode and the counter electrode of greater than or equal to 0.03 V and less than or equal to 0.2 V at a charge-discharge rate of 0.2 C. 3. The method of manufacturing a lithium secondary battery, according to claim 1 , wherein an approximately maximum amount of lithium is inserted into the negative electrode in the inserting step. 4. The method of manufacturing a lithium secondary battery, according to claim 1 , wherein the counter electrode is made of lithium. 5. The method of manufacturing a lithium secondary battery, according to claim 1 , wherein the lithium secondary battery is incorporated into any of a display device, a lighting device, a desktop personal computer, a laptop personal computer, an image reproduction device, a mobile phone, a portable game machine, a portable information terminal, an e-book reader, a video camera, a digital still camera, a high-frequency heating appliance, an electric rice cooker, an electric washing machine, an air conditioner, an electric refrigerator, an electric freezer, an electric refrigerator-freezer, a freezer for preserving DNA, and a medical electrical equipment. 6. A method of manufacturing a lithium secondary battery, comprising the steps of: forming a negative electrode comprising an active material layer over a current collector, the active material layer comprising a plurality of whisker-like portions; after the forming step, electrochemically inserting lithium into the negative electrode with use of a counter electrode, after the inserting step, electrochemically extracting a part of the lithium inserted into the negative electrode, and after the extracting step, assembling the lithium secondary battery comprising the negative electrode, a positive electrode, and an electrolyte solution, wherein each of the plurality of whisker-like portions consists of silicon, and wherein a remained lithium in the negative electrode after the extracting step is greater than or equal to 9% and less than or equal to 43% of a total capacity of the negative electrode. 7. The method of manufacturing a lithium secondary battery, according to claim 6 , wherein the inserting step is performed with a potential difference between the negative electrode and the counter electrode of greater than or equal to 0.03 V and less than or equal to 0.2 V at a charge-discharge rate of 0.2 C. 8. The method of manufacturing a lithium secondary battery, according to claim 6 , wherein an approximately maximum amount of lithium is inserted into the negative electrode in the inserting step. 9. The method of manufacturing a lithium secondary battery, according to claim 6 , wherein the counter electrode is made of lithium. 10. The method of manufacturing a lithium secondary battery, according to claim 6 , wherein the lithium secondary battery is incorporated into any of a display device, a lighting device, a desktop personal computer, a laptop personal computer, an image reproduction device, a mobile phone, a portable game machine, a portable information terminal, an e-book reader, a video camera, a digital still camera, a high-frequency heating appliance, an electric rice cooker, an electric washing machine, an air conditioner, an electric refrigerator, an electric freezer, an electric refrigerator-freezer, a freezer for preserving DNA, and a medical electrical equipment. 11. A method of manufacturing a lithium secondary battery, comprising the steps of: forming an active material layer over a current collector by an LPCVD method, the active material layer comprising a plurality of whisker-like portions; after forming the active material layer, forming graphene over and in contact with the plurality of whisker-like portions so as to form a negative electrode; after forming graphene, electrochemically inserting lithium into the negative electrode with use of a counter electrode, after the inserting step, electrochemically extracting a part of the lithium inserted into the negative electrode, and after the extracting step, assembling the lithium secondary battery comprising the negative electrode, wherein each of the plurality of whisker-like portions is formed of silicon, and wherein a remained lithium in the negative electrode after the extracting step is greater than or equal to 9% and less than or equal to 43% of a total capacity of the negative electrode. 12. The method of manufacturing a lithium secondary battery, according to claim 11 , wherein the inserting step is performed with a potential difference between the negative electrode and the counter electrode of greater than or equal to 0.03 V and less than or equal to 0.2 V at a charge-discharge rate of 0.2 C. 13. The method of manufacturing a lithium secondary battery, according to claim 11 , wherein an approximately maximum amount of lithium is inserted into the negative electrode in the inserting step. 14. The method of manufacturing a lithium secondary battery, according to claim 11 , wherein the counter electrode is made of lithium. 15. The method of manufacturing a lithium secondary battery, according to claim 11 , wherein the lithium secondary battery is incorporated into any of a display device, a lighting device, a desktop personal computer, a laptop personal computer, an image reproduction device, a mobile phone, a portable game machine, a portable information terminal, an e-book reader, a video camera, a digital still camera, a high-frequency heating appliance, an electric rice cooker, an electric washing machine, an air conditioner, an electric refrigerator, an electric freezer, an electric refrigerator-freezer, a freezer for preserving DNA, and a medical electrical equipment. 16. The method of manufacturing a lithium secondary battery according to claim 1 , further comprising the steps of: forming a graphene oxide over the plurality of whisker-like portions, and performing a reduction treatment to the graphene oxide to release a part of oxygen from the graphene oxide. 17. The method of manufacturing a lithium secondary battery according to claim 16 , wherein the graphene oxide is formed using an electrophoresis method. 18. The method of manufacturing a lithium secondary battery according to claim 6 , further comprising the steps of: forming a graphene oxide over the plurality of whisker-like portions, and performing a reduction treatment to the graphene oxide to release a part of oxygen from the graphene oxide. 19. The method of manufacturing a lithium secondary battery according to claim