Metal-supported electrochemical element, solid oxide fuel cell and method of manufacturing such metal-supported electrochemical element

The invention claimed is: 1. A metal-supported electrochemical element including at least a metal substrate as a support, the metal substrate having a plurality of through holes extending from a front side of the metal substrate to a back side of the metal substrate, an electrode layer formed on/over the metal substrate, a buffer layer formed on the electrode layer, and an electrolyte layer formed on the buffer layer; wherein the electrode layer is porous, the buffer layer has a density higher than a density of the electrode layer and lower than a density of the electrolyte layer, and the buffer layer has a thickness of 10 μm or less. 2. The metal-supported electrochemical element of claim 1 , wherein the buffer layer contains a ceria-based material. 3. The metal-supported electrochemical element of claim 1 , wherein the electrolyte layer contains stabilized zirconia. 4. The metal-supported electrochemical element of claim 1 , wherein the buffer layer has a thickness of 4 μm or more. 5. The metal-supported electrochemical element of claim 1 , wherein the density of the buffer layer is 50% or more and less than 98%. 6. The metal-supported electrochemical element of claim 1 , wherein a part of the electrolyte layer contains a dense electrolyte layer having density of 98% or higher. 7. The metal-supported electrochemical element of claim 1 , wherein the element further includes a diffusion suppressing layer for suppressing diffusion of Cr from the metal substrate to the electrode layer. 8. The metal-supported electrochemical element of claim 7 , wherein the diffusion suppressing layer comprises a metal oxide layer formed on a surface of the metal substrate. 9. The metal-supported electrochemical element of claim 1 , wherein the through holes are formed inside a region in the metal substrate where the electrolyte layer is formed. 10. The metal-supported electrochemical element of claim 1 , wherein the through holes are formed inside a region in the metal substrate where the electrode layer is formed. 11. The metal-supported electrochemical element of claim 1 , wherein on/over the electrolyte layer, there is provided a counter electrode layer as a counter electrode to the electrode layer. 12. The metal-supported electrochemical element of claim 11 , wherein the element further includes a reaction preventing layer formed between the electrolyte layer and the counter electrode layer. 13. A solid oxide fuel cell comprising the metal-supported electrochemical element of claim 1 , wherein the fuel cell can be operated at time of its rated operation in a temperature range from 600° C. or higher to 750° C. or lower. 14. A method of manufacturing the metal-supported electrochemical element of claim 1 , comprising: an electrode layer forming step for forming a porous electrode layer on/over a metal substrate as a support; a buffer layer forming step for forming a buffer layer on the electrode layer; and an electrolyte layer forming step for forming an electrolyte layer on the buffer layer; wherein the buffer layer has density higher than density of the electrode layer and lower than density of the electrolyte layer; and the electrode layer forming step, the buffer layer forming step, and the electrolyte layer forming step are effected at 1100° C. or lower.