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Converting carbon‐based molecular fuels into electricity efficiently and cleanly without emitting CO2 remains a challenge. Conventional fuel cells using noble metals as anode catalysts often suffer performance degradation due to CO poisoning and a host of problems associated with CO2 production. This study provides a CO2‐emission‐free direct formaldehyde fuel cell. It enables a flow of electricity...
Converting carbon‐based molecular fuels into electricity efficiently and cleanly without emitting CO2 remains a challenge. Conventional fuel cells using noble metals as anode catalysts often suffer performance degradation due to CO poisoning and a host of problems associated with CO2 production. This study provides a CO2‐emission‐free direct formaldehyde fuel cell. It enables a flow of electricity...