High‐Performance Chemically Regenerative Redox Fuel Cells Using a NO3−/NO Regeneration Reaction

In this study, we proposed high‐performance chemically regenerative redox fuel cells (CRRFCs) using NO3−/NO with a nitrogen‐doped carbon‐felt electrode and a chemical regeneration reaction of NO to NO3− via O2. The electrochemical cell using the nitrate reduction to NO at the cathode on the carbon f...

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Veröffentlicht in:	Angewandte Chemie International Edition 2017-03, Vol.56 (11), p.2893-2897
Hauptverfasser:	Han, Sang‐Beom, Kwak, Da‐Hee, Park, Hyun Suk, Choi, In‐Ae, Park, Jin‐Young, Kim, Si‐Jin, Kim, Min‐Cheol, Hong, Seongho, Park, Kyung‐Won
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Schlagworte:	carbon felt Density Electrochemistry Fuel cells Fuel technology nitrate Nitrate reduction Nitrates Nuclear fuels Oxidation polymer electrolyte Proton exchange membrane fuel cells redox couples Regenerative fuel cells
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creator	Han, Sang‐Beom Kwak, Da‐Hee Park, Hyun Suk Choi, In‐Ae Park, Jin‐Young Kim, Si‐Jin Kim, Min‐Cheol Hong, Seongho Park, Kyung‐Won
description	In this study, we proposed high‐performance chemically regenerative redox fuel cells (CRRFCs) using NO3−/NO with a nitrogen‐doped carbon‐felt electrode and a chemical regeneration reaction of NO to NO3− via O2. The electrochemical cell using the nitrate reduction to NO at the cathode on the carbon felt and oxidation of H2 as a fuel at the anode showed a maximal power density of 730 mW cm−2 at 80 °C and twofold higher power density of 512 mW cm−2 at 0.8 V, than the target power density of 250 mW cm−2 at 0.8 V in the H2/O2 proton exchange membrane fuel cells (PEMFCs). During the operation of the CRRFCs with the chemical regeneration reactor for 30 days, the CRRFCs maintained 60 % of the initial performance with a regeneration efficiency of about 92.9 % and immediately returned to the initial value when supplied with fresh HNO3. Need to NO: A chemically regenerative redox fuel cell uses the NO3−/NO redox couple as a liquid catalyst at a carbon‐felt cathode. The reduced NO(g) is regenerated to NO3− by O2. It gave a power density of 512 mW cm−2 at 0.8 V, twice the target power density of 250 mW cm−2 at 0.8 V in the H2/O2 proton exchange membrane fuel cells (PEMFCs).
doi_str_mv	10.1002/anie.201610738
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The electrochemical cell using the nitrate reduction to NO at the cathode on the carbon felt and oxidation of H2 as a fuel at the anode showed a maximal power density of 730 mW cm−2 at 80 °C and twofold higher power density of 512 mW cm−2 at 0.8 V, than the target power density of 250 mW cm−2 at 0.8 V in the H2/O2 proton exchange membrane fuel cells (PEMFCs). During the operation of the CRRFCs with the chemical regeneration reactor for 30 days, the CRRFCs maintained 60 % of the initial performance with a regeneration efficiency of about 92.9 % and immediately returned to the initial value when supplied with fresh HNO3. Need to NO: A chemically regenerative redox fuel cell uses the NO3−/NO redox couple as a liquid catalyst at a carbon‐felt cathode. The reduced NO(g) is regenerated to NO3− by O2. 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The electrochemical cell using the nitrate reduction to NO at the cathode on the carbon felt and oxidation of H2 as a fuel at the anode showed a maximal power density of 730 mW cm−2 at 80 °C and twofold higher power density of 512 mW cm−2 at 0.8 V, than the target power density of 250 mW cm−2 at 0.8 V in the H2/O2 proton exchange membrane fuel cells (PEMFCs). During the operation of the CRRFCs with the chemical regeneration reactor for 30 days, the CRRFCs maintained 60 % of the initial performance with a regeneration efficiency of about 92.9 % and immediately returned to the initial value when supplied with fresh HNO3. Need to NO: A chemically regenerative redox fuel cell uses the NO3−/NO redox couple as a liquid catalyst at a carbon‐felt cathode. The reduced NO(g) is regenerated to NO3− by O2. 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The electrochemical cell using the nitrate reduction to NO at the cathode on the carbon felt and oxidation of H2 as a fuel at the anode showed a maximal power density of 730 mW cm−2 at 80 °C and twofold higher power density of 512 mW cm−2 at 0.8 V, than the target power density of 250 mW cm−2 at 0.8 V in the H2/O2 proton exchange membrane fuel cells (PEMFCs). During the operation of the CRRFCs with the chemical regeneration reactor for 30 days, the CRRFCs maintained 60 % of the initial performance with a regeneration efficiency of about 92.9 % and immediately returned to the initial value when supplied with fresh HNO3. Need to NO: A chemically regenerative redox fuel cell uses the NO3−/NO redox couple as a liquid catalyst at a carbon‐felt cathode. The reduced NO(g) is regenerated to NO3− by O2. 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subjects	carbon felt Density Electrochemistry Fuel cells Fuel technology nitrate Nitrate reduction Nitrates Nuclear fuels Oxidation polymer electrolyte Proton exchange membrane fuel cells redox couples Regenerative fuel cells
title	High‐Performance Chemically Regenerative Redox Fuel Cells Using a NO3−/NO Regeneration Reaction
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