Fuel cell

The invention claimed is: 1. A fuel cell comprising: a cell structure including a cathode, an anode, and a solid electrolyte layer disposed between the cathode and the anode; an oxidizing agent flow path formed adjacent to the cathode and away from the solid electrolyte layer, the oxidizing agent flow path being a flow path for supplying a gas that contains an oxidizing agent to the cathode; an anode-side current collector disposed adjacent to the anode and away from the solid electrolyte layer, the anode-side current collector being in contact with the anode; an anode-side separator adjacent to the anode-side current collector and away from the solid electrolyte layer; and a plurality of fuel flow paths formed within the anode-side separator and adjacent to the anode-side current collector, the plurality of fuel flow paths being flow paths for supplying a fuel gas that contains water vapor and a hydrocarbon to the anode, wherein the anode-side current collector is a porous metal body having a three-dimensional network structure in which a framework is integrally continuous, the framework includes an outer shell and a core portion, the core portion being hollow, including a conductive material, or being hollow and including a conductive material, at least an outer layer in the outer shell includes an alloy layer containing a first metal and a second metal with the first metal being Ni and the second metal being Sn, a first phase and a second phase that have different respective Sn concentrations with respect to Ni coexist in the alloy layer, and the first phase comprises an intermetallic compound phase that contains Ni 3 Sn as a major component and the second phase contains Ni as a major component with Sn being dissolved in Ni. 2. The fuel cell according to claim 1 , wherein the Sn concentration of the first phase is greater than the Sn concentration of the second phase, and in the alloy layer, Sn is present in an amount of 4 mass % or greater and 15 mass % or less relative to a total amount of Ni and Sn. 3. The fuel cell according to claim 1 , wherein the porous metal body has a porosity of 90% or greater and 98% or less. 4. The fuel cell according to claim 1 , further comprising: a cathode-side current collector disposed adjacent to the cathode and away from the solid electrolyte layer, the cathode-side current collector being in contact with the cathode; and a cathode-side separator adjacent to the cathode-side current collector and away from the solid electrolyte layer. 5. The fuel cell according to claim 4 , wherein the oxidizing agent flow path comprises a plurality of oxidizing agent flow paths formed within the cathode-side separator and adjacent to the cathode-side current collector.