HVAC system flame sensor

The invention claimed is: 1. A flame sensor for a furnace of a heating, ventilation, and air conditioning (HVAC) system, comprising: a sensor body; an electrically conductive member of the sensor body, wherein the electrically conductive member is configured to be disposed within a flame region of a burner of the furnace and configured to receive electrical current from a controller of the furnace; and an anti-oxidation coating disposed on an outer surface of the electrically conductive member and configured to transmit the electrical current from the electrically conductive member, wherein the anti-oxidation coating is configured to contact a flame produced by the burner and expose the electrical current to the flame, and wherein the anti-oxidation coating comprises a noble metal. 2. The flame sensor of claim 1 , wherein the electrically conductive member is formed from a first material, the anti-oxidation coating is formed from a second material, and the first material and the second material are different from one another. 3. The flame sensor of claim 2 , wherein the second material comprises platinum. 4. The flame sensor of claim 2 , wherein the first material comprises an iron-chromium-aluminum alloy, nickel-chromium, or both. 5. The flame sensor of claim 1 , wherein the anti-oxidation coating is a plated layer disposed on the outer surface of the electrically conductive member. 6. The flame sensor of claim 1 , comprising a flange configured to mount the flame sensor to a combustion chamber housing of the burner. 7. The flame sensor of claim 6 , comprising an insulation portion coupled to and disposed between the flange and the electrically conductive member. 8. The flame sensor of claim 7 , wherein the insulation portion is disposed about the electrically conductive member, and the flange is disposed about the insulation portion. 9. A furnace, comprising: a burner configured to produce a flame within a flame region of the burner; and a flame sensor coupled to the burner, wherein the flame sensor comprises: an electrically conductive member disposed within the flame region of the burner, wherein the electrically conductive member is configured to receive electrical current from a controller of the furnace, and the electrically conductive member is formed from a first metallic material; and an anti-oxidation coating disposed on an outer surface of the electrically conductive member and configured to transmit the electrical current from the electrically conductive member, wherein the anti-oxidation coating is formed from a second metallic material comprising a noble metal, and the anti-oxidation coating is configured to contact the flame produced by the burner and expose the electrical current to the flame. 10. The furnace of claim 9 , comprising the controller, wherein the controller is configured to transmit the electrical current to the electrically conductive member as an alternating current. 11. The furnace of claim 10 , wherein the controller is configured to determine that the flame is present within the burner based on rectification of the alternating current to a direct current. 12. The furnace of claim 11 , wherein the controller is electrically grounded to the burner. 13. The furnace of claim 9 , wherein the anti-oxidation coating is a plated layer formed on the outer surface of the electrically conductive member. 14. The furnace of claim 9 , wherein the burner comprises a burner housing, the flame sensor is mounted to the burner housing, and the flame sensor extends at least partially into the burner housing via an aperture formed in the burner housing. 15. The furnace of claim 14 , wherein the flame sensor comprises an insulation portion disposed about the electrically conductive member, and the insulation portion is disposed within the aperture between the electrically conductive member and the burner housing. 16. A flame sensing system for a furnace of a heating, ventilation, and air conditioning (HVAC) system, comprising: a flame sensor configured to be disposed within a flame region of a burner of the furnace, wherein the flame sensor comprises: a main body portion formed from a metallic material and configured to receive electric current from a controller of the furnace; and an anti-oxidation coating formed on an outer surface of the main body portion, wherein the anti-oxidation coating is formed from a noble metal and is configured to transmit the electric current from the main body portion. 17. The flame sensing system of claim 16 , comprising the controller, wherein the controller is configured to direct the electric current to the flame sensor as an alternating current, and the controller is configured to detect a presence of a flame based on detection of rectification of the alternating current into direct current. 18. The flame sensing system of claim 16 , wherein the anti-oxidation coating is configured to expose the electric current to a flame. 19. The flame sensor of claim 1 , wherein the anti-oxidation coating is configured to shield the electrically conductive member from oxygen within the flame region. 20. The flame sensing system of claim 16 , wherein the anti-oxidation coating is configured to shield the main body portion from oxygen within the flame region.