Solvent-free assembly of Co/Fe-containing MOFs derived N-doped mesoporous carbon nanosheets for ORR and HER

Solvent-free assembly of Co/Fe-containing MOFs derived N-doped mesoporous carbon nanosheets for ORR and HER

The difficulties in integration of different active sites and structural optimization are huge obstacles in developing multi-functional electrocatalysts. In the present work, a molten salt-assisted solid state assembly strategy is developed to prepare Fe/Co Zn MOFs composites. Subsequent carbonizati...

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Veröffentlicht in:Carbon (New York) 2019-05, Vol.146, p.671-679
Hauptverfasser: Wang, Yu, Pan, Ying, Zhu, Liangkui, Yu, Honghao, Duan, Bingyi, Wang, Runwei, Zhang, Zongtao, Qiu, Shilun
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Sprache:eng
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Assembly
Carbon
Carbonization
Cobalt
Electrocatalysis
Electrocatalysts
Electron transfer
Iron
Metal-organic frameworks
Molten salts
Nanoparticles
Nanosheets
Nanotubes
Nitrogen
Optimization
Porosity
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container_end_page 679
container_issue
container_start_page 671
container_title Carbon (New York)
container_volume 146
creator Wang, Yu
Pan, Ying
Zhu, Liangkui
Yu, Honghao
Duan, Bingyi
Wang, Runwei
Zhang, Zongtao
Qiu, Shilun
description The difficulties in integration of different active sites and structural optimization are huge obstacles in developing multi-functional electrocatalysts. In the present work, a molten salt-assisted solid state assembly strategy is developed to prepare Fe/Co Zn MOFs composites. Subsequent carbonization of these MOFs yields Fe/Co decorated nitrogen doped mesoporous carbon (Fe/CoNCs). The obtained NCs possess several merits, such as i, Sheet-like structure with high porosity and tubular large mesopores (15 nm); ii, N-doped carbon skeleton; iii, Highly dispersed Fe/Co nanoparticles. Benefit from these structural superiority and the synergy between active sites, Fe/Co-NC showed high activity toward both ORR and HER. Among those, the Fe-NC showed excellent ORR activity, experienced four-electron ORR process showing high onset potential (0.963 V), half-wave potential (0.877 V vs. RHE) and outstanding durability (95% current retention after 20000 s). The Co-NC showed high HER activity, achieving a current density of 10 mA cm−3 with low over potential of 242 mV. The remarkable ORR and HER performance can be mainly attributed to the simultaneous incorporation of multi active centers, i.e. nitrogen moieties and metal species (Fe/Co) to synergistically boost the ORR and HER process, and high porosity to accelerate mass and electron transfer. Solvent-free assembly of Fe/Co nitrogen dope mesoporous carbon nanosheets as high efficient bifunctional (ORR and HER) electrocatalyst. [Display omitted]
doi_str_mv 10.1016/j.carbon.2019.02.002
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In the present work, a molten salt-assisted solid state assembly strategy is developed to prepare Fe/Co Zn MOFs composites. Subsequent carbonization of these MOFs yields Fe/Co decorated nitrogen doped mesoporous carbon (Fe/CoNCs). The obtained NCs possess several merits, such as i, Sheet-like structure with high porosity and tubular large mesopores (15 nm); ii, N-doped carbon skeleton; iii, Highly dispersed Fe/Co nanoparticles. Benefit from these structural superiority and the synergy between active sites, Fe/Co-NC showed high activity toward both ORR and HER. Among those, the Fe-NC showed excellent ORR activity, experienced four-electron ORR process showing high onset potential (0.963 V), half-wave potential (0.877 V vs. RHE) and outstanding durability (95% current retention after 20000 s). The Co-NC showed high HER activity, achieving a current density of 10 mA cm−3 with low over potential of 242 mV. The remarkable ORR and HER performance can be mainly attributed to the simultaneous incorporation of multi active centers, i.e. nitrogen moieties and metal species (Fe/Co) to synergistically boost the ORR and HER process, and high porosity to accelerate mass and electron transfer. Solvent-free assembly of Fe/Co nitrogen dope mesoporous carbon nanosheets as high efficient bifunctional (ORR and HER) electrocatalyst. 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In the present work, a molten salt-assisted solid state assembly strategy is developed to prepare Fe/Co Zn MOFs composites. Subsequent carbonization of these MOFs yields Fe/Co decorated nitrogen doped mesoporous carbon (Fe/CoNCs). The obtained NCs possess several merits, such as i, Sheet-like structure with high porosity and tubular large mesopores (15 nm); ii, N-doped carbon skeleton; iii, Highly dispersed Fe/Co nanoparticles. Benefit from these structural superiority and the synergy between active sites, Fe/Co-NC showed high activity toward both ORR and HER. Among those, the Fe-NC showed excellent ORR activity, experienced four-electron ORR process showing high onset potential (0.963 V), half-wave potential (0.877 V vs. RHE) and outstanding durability (95% current retention after 20000 s). The Co-NC showed high HER activity, achieving a current density of 10 mA cm−3 with low over potential of 242 mV. The remarkable ORR and HER performance can be mainly attributed to the simultaneous incorporation of multi active centers, i.e. nitrogen moieties and metal species (Fe/Co) to synergistically boost the ORR and HER process, and high porosity to accelerate mass and electron transfer. Solvent-free assembly of Fe/Co nitrogen dope mesoporous carbon nanosheets as high efficient bifunctional (ORR and HER) electrocatalyst. 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In the present work, a molten salt-assisted solid state assembly strategy is developed to prepare Fe/Co Zn MOFs composites. Subsequent carbonization of these MOFs yields Fe/Co decorated nitrogen doped mesoporous carbon (Fe/CoNCs). The obtained NCs possess several merits, such as i, Sheet-like structure with high porosity and tubular large mesopores (15 nm); ii, N-doped carbon skeleton; iii, Highly dispersed Fe/Co nanoparticles. Benefit from these structural superiority and the synergy between active sites, Fe/Co-NC showed high activity toward both ORR and HER. Among those, the Fe-NC showed excellent ORR activity, experienced four-electron ORR process showing high onset potential (0.963 V), half-wave potential (0.877 V vs. RHE) and outstanding durability (95% current retention after 20000 s). The Co-NC showed high HER activity, achieving a current density of 10 mA cm−3 with low over potential of 242 mV. The remarkable ORR and HER performance can be mainly attributed to the simultaneous incorporation of multi active centers, i.e. nitrogen moieties and metal species (Fe/Co) to synergistically boost the ORR and HER process, and high porosity to accelerate mass and electron transfer. Solvent-free assembly of Fe/Co nitrogen dope mesoporous carbon nanosheets as high efficient bifunctional (ORR and HER) electrocatalyst. [Display omitted]</abstract><cop>New York</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.carbon.2019.02.002</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0003-0185-0288</orcidid></addata></record>
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subjects Assembly
Carbon
Carbonization
Cobalt
Electrocatalysis
Electrocatalysts
Electron transfer
Iron
Metal-organic frameworks
Molten salts
Nanoparticles
Nanosheets
Nanotubes
Nitrogen
Optimization
Porosity
title Solvent-free assembly of Co/Fe-containing MOFs derived N-doped mesoporous carbon nanosheets for ORR and HER
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