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Atomic-level tuning of Co-N-C catalyst for high-performance electrochemical H2O2 production.

Nature materials (2020-01-15)
Euiyeon Jung, Heejong Shin, Byoung-Hoon Lee, Vladimir Efremov, Suhyeong Lee, Hyeon Seok Lee, Jiheon Kim, Wytse Hooch Antink, Subin Park, Kug-Seung Lee, Sung-Pyo Cho, Jong Suk Yoo, Yung-Eun Sung, Taeghwan Hyeon
RESUMO

Despite the growing demand for hydrogen peroxide it is almost exclusively manufactured by the energy-intensive anthraquinone process. Alternatively, H2O2 can be produced electrochemically via the two-electron oxygen reduction reaction, although the performance of the state-of-the-art electrocatalysts is insufficient to meet the demands for industrialization. Interestingly, guided by first-principles calculations, we found that the catalytic properties of the Co-N4 moiety can be tailored by fine-tuning its surrounding atomic configuration to resemble the structure-dependent catalytic properties of metalloenzymes. Using this principle, we designed and synthesized a single-atom electrocatalyst that comprises an optimized Co-N4 moiety incorporated in nitrogen-doped graphene for H2O2 production and exhibits a kinetic current density of 2.8 mA cm-2 (at 0.65 V versus the reversible hydrogen electrode) and a mass activity of 155 A g-1 (at 0.65 V versus the reversible hydrogen electrode) with negligible activity loss over 110 hours.

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Sigma-Aldrich
1,10-Phenanthroline, ≥99%
Sigma-Aldrich
Cobalt(II) acetate, 99.99% trace metals basis