Journal
ACS CATALYSIS
Volume 13, Issue 8, Pages 5397-5405Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acscatal.3c000805397
Keywords
hierarchical porous catalytic system; nitrogen-doped carbon-encapsulated; Pt nanoparticles; ZrO2 nanoframework; oxygen reduction reaction
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In this work, a highly efficient 3D hierarchical porous oxygen reduction reaction (ORR) catalytic system was developed by introducing stable and multiaperture zirconia (ZrO2) and conductive N-doped carbon (NC) into a Pt-based catalyst. The Pt-ZrO2 interface greatly enhanced the activation of O2 by modulating the electronic state of Pt nanoparticles. The hierarchical porous structure of a NC-encapsulated nanoframework compensated for system conductivity, promoting mass diffusion and electron transfer, thus enhancing the ORR activity and stability.
Rational regulation of the three-dimensional (3D) intrinsic configuration of nanocatalysts is essential for the complex three-phase interfacial mass transfer process in the oxygen reduction reaction (ORR) and proton membrane exchange membrane fuel cells (PEMFCs). In this work, we developed a highly efficient 3D hierarchical porous ORR catalytic system by introducing stable and multiaperture zirconia (ZrO2) and conductive N-doped carbon (NC) into a Pt-based catalyst. We found that the constructed Pt-ZrO2 interface greatly promotes the activation of O2 by modulating the electronic state of Pt nanoparticles. The hierarchical porous structure of a NC-encapsulated nanoframe-work compensates for the system conductivity, promoting the mass diffusion and the electron transfer of catalytic species, thereby enhancing the ORR activity and stability. This developed hierarchical porous ORR catalytic system exhibits a good mass activity/specific activity of 1.26 A mgPt-1/ 1.44 mA cm-2, which is 4.5/5.8 times higher than that of commercial Pt/C. Moreover, it exhibits negligible activity decay and morphological stability after 30 K potential cycling. Our findings of integrating hierarchical porous systems to simultaneously optimize the geometric and electric structure of Pt-based catalysts should finally boost their development in practical PEMFCs.
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