Template-Assisted Mechanosynthesis Leading to Benchmark Energy Efficiency and Sustainability in the Production of Bifunctional Fe–N–C Electrocatalysts

Abstract: Efficient and sustainable synthesis of performant metal/nitrogen-doped carbon (M–N–C) catalysts for oxygen reduction and evolution reactions (ORR/OER) is vital for the global switch to green energy technologies–fuel cells and metal–air batteries. This study reports a solid-phase template-assisted mechanosynthesis of Fe–N–C, featuring low-cost and sustainable FeCl3, 2,4,6-tri­(2-pyridyl)-1,3,5-triazine (TPTZ), and NaCl. A NaCl-templated Fe-TPTZ metal–organic material was formed using facile liquid-assisted grin… Show more

“…The lower bifunctional activity observed in IroNi-2 and IroNi-1 can be attributed to their lower porosity, which hinders the wetting of the total surface and leads to the inaccessibility and inactivity of a significant portion of active sites. 29 Comparatively, the efficiency of IroNi-3D is found to be on par with that of previously reported FeNi–N–C catalysts (Table S4†), while maintaining the sustainability and cost/energy-efficiency benefits of solid-state synthesis. 28,29…”

“…29 Comparatively, the efficiency of IroNi-3D is found to be on par with that of previously reported FeNi–N–C catalysts (Table S4†), while maintaining the sustainability and cost/energy-efficiency benefits of solid-state synthesis. 28,29…”

“…However, as was demonstrated in our previous studies, a lack of porosity will lead to a lowered electrochemical activity due to poor exposure to catalytically active sites. 29 The C 1s spectrum (Fig. S5a†) displays characteristic peaks at 284.5 and 284.8 eV that can be ascribed to the sp 2 and sp 3 carbons, respectively.…”

“…Currently, most synthetic methods for M–N–C involve solvent-based approaches (dissolution, hydrothermal/solvothermal, and precipitation), which can often generate a substantial quantity of waste and be material, cost, and energy intensive. 28,29 Therefore, in recent studies, mechanosynthesis has been employed as an effective and greener alternative for conventional solvent-based synthesis to reduce or eliminate the generation of waste and material and energy overuse. 30–33 The mechanochemical synthesis is performed in a solid phase where mechanical energy is transferred to reactants by grinding with minimal or no solvent.…”

“…Template-assisted synthesis involves using a scaffold that provides a spatial framework for the desired product once the template is removed to direct the morphology and pore distribution, thereby creating a hierarchical porous structure – a vital characteristic for high-performance catalysts. 29,37 Inorganic compounds (NaCl, KCl, MgO, SiO 2 , Al 2 O 3 , etc. ) are often used in template-assisted synthesis as inexpensive, stable, environmentally friendly, and easy-to-remove compounds.…”

Mechanosynthesis of a bifunctional FeNi–N–C oxygen electrocatalyst via facile mixed-phase templating and preheating-pyrolysis

“…The lower bifunctional activity observed in IroNi-2 and IroNi-1 can be attributed to their lower porosity, which hinders the wetting of the total surface and leads to the inaccessibility and inactivity of a significant portion of active sites. 29 Comparatively, the efficiency of IroNi-3D is found to be on par with that of previously reported FeNi–N–C catalysts (Table S4†), while maintaining the sustainability and cost/energy-efficiency benefits of solid-state synthesis. 28,29…”

“…29 Comparatively, the efficiency of IroNi-3D is found to be on par with that of previously reported FeNi–N–C catalysts (Table S4†), while maintaining the sustainability and cost/energy-efficiency benefits of solid-state synthesis. 28,29…”

“…However, as was demonstrated in our previous studies, a lack of porosity will lead to a lowered electrochemical activity due to poor exposure to catalytically active sites. 29 The C 1s spectrum (Fig. S5a†) displays characteristic peaks at 284.5 and 284.8 eV that can be ascribed to the sp 2 and sp 3 carbons, respectively.…”

“…Currently, most synthetic methods for M–N–C involve solvent-based approaches (dissolution, hydrothermal/solvothermal, and precipitation), which can often generate a substantial quantity of waste and be material, cost, and energy intensive. 28,29 Therefore, in recent studies, mechanosynthesis has been employed as an effective and greener alternative for conventional solvent-based synthesis to reduce or eliminate the generation of waste and material and energy overuse. 30–33 The mechanochemical synthesis is performed in a solid phase where mechanical energy is transferred to reactants by grinding with minimal or no solvent.…”

“…Template-assisted synthesis involves using a scaffold that provides a spatial framework for the desired product once the template is removed to direct the morphology and pore distribution, thereby creating a hierarchical porous structure – a vital characteristic for high-performance catalysts. 29,37 Inorganic compounds (NaCl, KCl, MgO, SiO 2 , Al 2 O 3 , etc. ) are often used in template-assisted synthesis as inexpensive, stable, environmentally friendly, and easy-to-remove compounds.…”

Mechanosynthesis of a bifunctional FeNi–N–C oxygen electrocatalyst via facile mixed-phase templating and preheating-pyrolysis

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