Development of a reactor with carbon catalysts for modular-scale, low-cost electrochemical generation of H 2 O 2
Reaction Chemistry & Engineering, 2017•pubs.rsc.org
The development of small-scale, decentralized reactors for H2O2 production that can couple
to renewable energy sources would be of great benefit, particularly for water purification in
the developing world. Herein, we describe our efforts to develop electrochemical reactors for
H2O2 generation with high Faradaic efficiencies of> 90%, requiring cell voltages of only∼
1.6 V. The reactor employs a carbon-based catalyst that demonstrates excellent
performance for H2O2 production under alkaline conditions, as demonstrated by …
to renewable energy sources would be of great benefit, particularly for water purification in
the developing world. Herein, we describe our efforts to develop electrochemical reactors for
H2O2 generation with high Faradaic efficiencies of> 90%, requiring cell voltages of only∼
1.6 V. The reactor employs a carbon-based catalyst that demonstrates excellent
performance for H2O2 production under alkaline conditions, as demonstrated by …
The development of small-scale, decentralized reactors for H2O2 production that can couple to renewable energy sources would be of great benefit, particularly for water purification in the developing world. Herein, we describe our efforts to develop electrochemical reactors for H2O2 generation with high Faradaic efficiencies of >90%, requiring cell voltages of only ∼1.6 V. The reactor employs a carbon-based catalyst that demonstrates excellent performance for H2O2 production under alkaline conditions, as demonstrated by fundamental studies involving rotating-ring disk electrode methods. The low-cost, membrane-free reactor design represents a step towards a continuous, modular-scale, de-centralized production of H2O2.
The Royal Society of Chemistry
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