Stretchable electrode, sensor sheet and capacitive sensor

The invention claimed is: 1. A sensor sheet using a stretchable electrode comprising a base formed of an elastomer composition and an electrode main body integrated with the base, wherein the electrode main body is formed using multi-walled carbon nanotubes having an average length in the range of 102 μm to 600 μm; wherein the base is sheet-like and the electrode main body is disposed on both surfaces of the base; and wherein the electrode main body disposed on one surface of the base and the electrode main body disposed on the other surface of the base are at least partially opposed to each other with the base interposed therebetween. 2. A sensor sheet according to claim 1 , wherein the multi-walled carbon nanotube has a fiber diameter of 5 to 30 nm. 3. A sensor sheet according to claim 1 , wherein the multi-walled carbon nanotube has a fiber diameter of 5 to 30 nm. 4. A sensor sheet using a stretchable electrode comprising: a base formed of an elastomer composition and an electrode main body integrated with the base, wherein the electrode main body is formed using multi-walled carbon nanotubes having an average length in the range of 102 μm to 600 μm; wherein the base is sheet-like and the electrode main body is disposed on both surfaces of the base; wherein the electrode main body disposed on one surface of the base and the electrode main body disposed on the other surface of the base are at least partially opposed to each other with the base interposed therebetween; and wherein the electrode main body is rectangular and plural rows of the electrode main bodies are disposed on both surfaces of the base. 5. A sensor sheet according to claim 1 , wherein the multi-walled carbon nanotube has a fiber diameter of 5 to 30 nm. 6. A sensor sheet according to claim 4 , wherein the multi-walled carbon nanotube has a fiber diameter of 5 to 30 nm. 7. A capacitive sensor of claim 4 , wherein the electrode main body is rectangular and plural rows of the electrode main bodies are disposed on both surfaces of the base. 8. A capacitive sensor comprising: a sensor sheet using a stretchable electrode comprising a base formed of an elastomer composition and an electrode main body integrated with the base, a measurement instrument, and external conducting wires for connecting between the measurement instrument and the electrode main body, wherein the electrode main body is formed using multi-walled carbon nanotubes having a fiber length of 50 μm or more; wherein the base is sheet-like and the electrode main body is disposed on both surfaces of the base; wherein the electrode main body disposed on one surface of the base and the electrode main body disposed on the other surface of the base are at least partially opposed to each other with the base interposed therebetween; wherein a portion in which the electrode main body disposed on one surface of the base and the electrode main body disposed on the other surface of the base are opposed to each other with the base interposed therebetween is a detection portion; and wherein the measurement instrument measures an amount of strain due to deformation by measuring changes in capacitance in the detection portion. 9. A capacitive sensor of claim 8 , wherein the multi-walled carbon nanotube has a fiber diameter of 5 to 30 nm. 10. A capacitive sensor of claim 9 , wherein the electrode main body is rectangular and plural rows of the electrode main bodies are disposed on both surfaces of the base. 11. A capacitive sensor of claim 8 , wherein the multi-walled carbon nanotube has a fiber diameter of 5 to 30 nm. 12. A capacitive sensor of claim 11 , wherein the electrode main body is rectangular and plural rows of the electrode main bodies are disposed on both surfaces of the base. 13. A capacitive sensor of claim 8 , wherein the electrode main body is rectangular and plural rows of the electrode main bodies are disposed on both surfaces of the base.