Gas sensor, method for producing conductive paste, and method for manufacturing gas sensor

What is claimed is: 1. A mixed-potential type hydrocarbon gas sensor that measures a concentration of a hydrocarbon gas of a measurement gas, said gas sensor comprising: a sensor element mainly made of an oxygen-ion conductive solid electrolyte; a sensing electrode for sensing said hydrocarbon gas, said sensing electrode provided on a surface of said sensor element; and a reference electrode including a cermet including Pt and an oxygen-ion conductive solid electrolyte; wherein: said sensing electrode includes a cermet comprising a plurality of noble metal particles and an oxygen-ion conductive solid electrolyte, said noble metal particles each comprise an alloy of Pt and Au, a Au abundance ratio, which is an area ratio of a portion covered with said Au to a portion at which said Pt is exposed in a surface of each of the plurality of noble metal particles, is 0.1 or more and less than 0.3, and said gas sensor is configured to determine the concentration of said hydrocarbon gas based on a potential difference between said sensing electrode and said reference electrode. 2. The gas sensor according to claim 1 , further comprising an electrode protective layer that is a porous layer covering at least said sensing electrode. 3. The gas sensor according to claim 2 , wherein said sensor element further includes a reference gas introduction space into which a reference gas is introduced, said reference gas introduction space separated from a space containing said measurement gas, and said reference electrode is placed in an atmosphere of said reference gas. 4. The gas sensor according to claim 2 , wherein said sensing electrode and said reference electrode are disposed on the surface of said sensor element. 5. The gas sensor according to claim 4 , wherein said sensing electrode and said reference electrode are covered with an electrode protective layer. 6. The gas sensor according to claim 1 , wherein said sensor element further includes a reference gas introduction space into which a reference gas is introduced, said reference gas introduction space separated from a space containing said measurement gas, and said reference electrode is placed in an atmosphere of said reference gas. 7. The gas sensor according to claim 6 , wherein said sensor element further includes a reference gas introduction layer that is a porous layer in communication with said reference gas introduction space, and said reference electrode is covered with said reference gas introduction layer. 8. The gas sensor according to claim 6 , wherein said reference electrode is exposed to said reference gas introduction space. 9. The gas sensor according to claim 1 , wherein said sensing electrode and said reference electrode are disposed on the surface of said sensor element. 10. The gas sensor according to claim 9 , wherein said sensing electrode and said reference electrode are covered with said electrode protective layer. 11. A method for producing a conductive paste, said conductive paste being used to form a sensing electrode of a mixed-potential gas sensor for measuring a concentration of a predetermined gas component of a measurement gas, said method comprising the steps of: preparing a starting material; and mixing said starting material, wherein said starting material is prepared as a mixture of at least a Pt powder, an ion-containing liquid obtained by dissolving a salt or an organometallic complex containing a Au ion in a solvent, a zirconia powder, and a binder, or a mixture of at least a coating powder containing a Pt powder coated with Au, a zirconia powder, and a binder, said starting material is mixed such that a weight ratio of said Au in a noble metal component of said conductive paste is 0.5 wt % or more and less than 2 wt %, said gas sensor comprises a sensor element mainly made of an oxygen-ion conductive solid electrolyte, a sensing electrode located on a surface of said sensor element, and a reference electrode including a cermet including Pt and an oxygen-ion conductive solid electrolyte, said sensing electrode includes a cermet comprising a plurality of noble metal particles and an oxygen-ion conductive solid electrolyte, said noble metal particles each comprise an alloy of Pt and Au, a Au abundance ratio, which is an area ratio of a portion covered with said Au to a portion at which said Pt is exposed in a surface of each of the plurality of noble metal particles, is 0.1 or more and less than 0.3, and said gas sensor determines a concentration of said predetermined gas component based on a potential difference between said sensing electrode and said reference electrode. 12. A method for manufacturing a gas sensor, said method comprising: (a) preparing a conductive paste; (b) preparing a plurality of green sheets each comprising an oxygen-ion conductive solid electrolyte; (c) applying said conductive paste to some of said plurality of green sheets to form a pattern of said sensing electrode; (d) forming a laminated body of said plurality of green sheets including the green sheets on which the pattern of said sensing electrode has been formed; and (e) firing said laminated body to integrally fire said sensing electrode with said solid electrolyte, wherein said step (a) comprises the steps of (a-1) preparing a starting material, and (a-2) mixing said starting material, said starting material is prepared as a mixture of at least a Pt powder, an ion-containing liquid obtained by dissolving a salt or an organometallic complex containing a Au ion in a solvent, a zirconia powder, and a binder, or a mixture of a coating powder containing a Pt powder coated with Au, a zirconia powder, and a binder, said starting material is mixed such that a weight ratio of said Au in a noble metal component of said conductive paste is 0.5 wt % or more and less than 2 wt %, said gas sensor comprises a sensor element mainly made of an oxygen-ion conductive solid electrolyte, a sensing electrode located on a surface of said sensor element, and a reference electrode including a cermet including Pt and an oxygen-ion conductive solid electrolyte, said sensing electrode includes a cermet comprising a plurality of noble metal particles and an oxygen-ion conductive solid electrolyte, said noble metal particles each comprise an alloy of Pt and Au, a Au abundance ratio, which is an area ratio of a portion covered with said Au to a portion at which said Pt is exposed in a surface of each of the plurality of noble metal particles, is 0.1 or more and less than 0.3, and said gas sensor determines a concentration of said predetermined gas component based on a potential difference between said sensing electrode and said reference electrode.