Boosting ORR Activity in π-Rich Carbon-Supported Sub-3 nm Pt-Based Intermetallic Electrocatalysts via d–π Interaction

Li, Jiahui; Li, Lingyu; Lin, Weiguo; Chen, Xu; Yang, Wensheng

doi:10.1021/acssuschemeng.3c08557

ACS Sustainable Chem. Eng.

2024

DOI: 10.1021/acssuschemeng.3c08557

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Boosting ORR Activity in π-Rich Carbon-Supported Sub-3 nm Pt-Based Intermetallic Electrocatalysts via d–π Interaction

Jiahui Li,

Lingyu Li,

Weiguo Lin

et al.

Abstract: Regulating Pt−C interactions is the key to improving the performance of carbon-supported Pt-based electrocatalysts. However, the surfaces of common commercial carbon supports are relatively inert, and achieving strong bonding with metals remains a challenge. Herein, a simple method is employed to prepare highly dispersed and sub-3 nm PtCo intermetallic compounds (IMCs) supported on π-electron-rich nitrogen-doped petroleum vacuum residue-derived porous carbon (NPPC) for the oxygen reduction reaction (ORR). Stro… Show more

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Cited by 2 publications

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Seed‐Mediated Synthesis of High Loading PtCo Intermetallic Compounds Enhanced Catalytic Efficacy and Long‐Term Stability for Oxygen Reduction Reaction

Cai,

Yang,

Liu

et al. 2024

ChemPlusChem

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Atomically ordered intermetallic Pt‐based nanoparticles, recognized as advanced electrocatalysts, exhibit superior activity for the oxygen reduction reaction (ORR) in fuel cell cathodes. Nevertheless, the formation of these ordered structures typically necessitates elevated annealing temperatures, which can accelerate particle growth and diminished reactivity. In this study, we synthesized carbon‐supported platinum‐cobalt intermetallic compounds (PtCo‐IMCs) with sub‐4 nm particle sizes and uniform distribution. These catalysts, characterized by high platinum content and exceptional ORR activity, are specifically tailored for heavy‐duty vehicle (HDV) applications. The PtCo‐IMCs exhibited significantly enhanced catalytic performance and durability compared to conventional Pt‐based catalysts, utilizing platinum nanoparticles as nucleation sites to promote growth. This method effectively retained smaller particle sizes while achieving a higher degree of ordering and alloying during high‐temperature annealing. Optimization of the annealing temperature resulted in peak activity and stability at 800 °C. The mass activity (MA) of the PtCo‐800 catalyst was 2.7‐fold and 1.8‐fold that of the commercial Pt/C and disordered PtCo catalysts, respectively. Additionally, the single cell employing the PtCo‐800 catalyst showed a minimal voltage loss of only 27 mV at a current density of 2 A cm‐2 after 30,000 cycles of the accelerated durability test (ADT), underscoring its long‐term stability.

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Seed‐Mediated Synthesis of High Loading PtCo Intermetallic Compounds Enhanced Catalytic Efficacy and Long‐Term Stability for Oxygen Reduction Reaction

Cai,

Yang,

Liu

et al. 2024

ChemPlusChem

View full text Add to dashboard Cite

show abstract

Introducing yttrium into Pt-based intermetallic compounds induce electron perturbation and anti-oxidation for enhancing oxygen reduction activity and durability

Li,

Liu,

et al. 2024

Chemical Engineering Journal

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Boosting ORR Activity in π-Rich Carbon-Supported Sub-3 nm Pt-Based Intermetallic Electrocatalysts via d–π Interaction

Cited by 2 publications

References 48 publications

Seed‐Mediated Synthesis of High Loading PtCo Intermetallic Compounds Enhanced Catalytic Efficacy and Long‐Term Stability for Oxygen Reduction Reaction

Seed‐Mediated Synthesis of High Loading PtCo Intermetallic Compounds Enhanced Catalytic Efficacy and Long‐Term Stability for Oxygen Reduction Reaction

Introducing yttrium into Pt-based intermetallic compounds induce electron perturbation and anti-oxidation for enhancing oxygen reduction activity and durability

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