AI Article Synopsis
- A new isolation protocol has been developed for metallic Fullertubes D-C, which have unique electronic features.
- The study focuses on the electrocatalytic behavior of various fullerenes in oxygen reduction reactions, finding that metal-free Carbon (C) shows impressive performance, comparable to platinum catalysts.
- Experimental and theoretical analyses reveal that C's high activity in fuel cells results from its favorable energy-level alignment and catalytic sites on its carbon structure.
Article Abstract
A new isolation protocol was recently reported for highly purified metallic Fullertubes D -C , D -C , and D -C which exhibit unique electronic features. Here, we report the oxygen reduction electrocatalytic behavior of C , C (spheroidal fullerenes), and C , C , and C (tubular fullerenes) using a combination of experimental and theoretical approaches. C (a metal-free catalyst) displayed remarkable oxygen reduction reaction (ORR) activity, with an onset potential of 0.85 V and a halfway potential of 0.75 V, which are close to the state-of-the-art Pt/C benchmark catalyst values. We achieved an excellent power density of 0.75 W cm using C as a modified cathode in a proton-exchange membrane fuel cell, comparable to other recently reported efficient metal-free catalysts. Combined band structure (experimentally calculated) and free-energy (DFT) investigations show that both favorable energy-level alignment active catalytic sites on the carbon cage are responsible for the superior activity of C .
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| http://dx.doi.org/10.1002/anie.202116727 | DOI Listing |
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