Journal ArticleDOI
MO-Co@N-Doped Carbon (M = Zn or Co): Vital Roles of Inactive Zn and Highly Efficient Activity toward Oxygen Reduction/Evolution Reactions for Rechargeable Zn–Air Battery
Biaohua Chen,Xiaobo He,Fengxiang Yin,Hao Wang,Hao Wang,Di-Jia Liu,Ruixing Shi,Jinnan Chen,Hongwei Yin +8 more
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In this paper, the MO-Co@N-doped carbon (NC, M = Zn or Co) is developed as a highly active ORR/OER bifunctional catalyst via pyrolysis of a bimetal metal-organic framework containing Zn and Co, i.e., precursor (CoZn).Abstract:
A highly efficient bifunctional oxygen catalyst is required for practical applications of fuel cells and metal–air batteries, as oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) are their core electrode reactions. Here, the MO-Co@N-doped carbon (NC, M = Zn or Co) is developed as a highly active ORR/OER bifunctional catalyst via pyrolysis of a bimetal metal–organic framework containing Zn and Co, i.e., precursor (CoZn). The vital roles of inactive Zn in developing highly active bifunctional oxygen catalysts are unraveled. When the precursors include Zn, the surface contents of pyridinic N for ORR and the surface contents of Co–Nx and Co3+/Co2+ ratios for OER are enhanced, while the high specific surface areas, high porosity, and high electrochemical active surface areas are also achieved. Furthermore, the synergistic effects between Zn-based and Co-based species can promote the well growth of multiwalled carbon nanotubes (MWCNTs) at high pyrolysis temperatures (≥700 °C), which is favorable for charge transfer. The optimized CoZn-NC-700 shows the highly bifunctional ORR/OER activity and the excellent durability during the ORR/OER processes, even better than 20 wt% Pt/C (for ORR) and IrO2 (for OER). CoZn-NC-700 also exhibits the prominent Zn–air battery performance and even outperforms the mixture of 20 wt% Pt/C and IrO2.read more
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Core–shell structured nanoporous N-doped carbon decorated with embedded Co nanoparticles as bifunctional oxygen electrocatalysts for rechargeable Zn–air batteries
TL;DR: In this paper, a core-shell structured carbon hybrid (PNC@CoNC) was presented as an effective bifunctional oxygen catalyst prepared by a surface polymerization strategy and a subsequent pyrolysis process, consisting of nanoporous N-doped carbon core and graphitic carbon shell with embedded Co nanoparticles.
Journal ArticleDOI
A dual‐doping strategy of LaCoO3 for optimized oxygen evolution reaction toward zinc‐air batteries application
Mohamed Elhousseini Hilal,Seyfettin Berk Şanlı,Sander Dekyvere,Gulhan Cakmak,Hussein A. Younus,Fatih Piskin,Francis Verpoort,Berke Pişkin +7 more
TL;DR: In this article , a facile dual-doping strategy has been conducted and yielded an astonishing upgrade of lanthanum cobaltite; fine tuning of both A and B sites with calcium and manganese has proven remarkably beneficial.
Journal ArticleDOI
Efficient Bifunctional 3D Porous Co–N–C Catalyst from Spent Li–ion Batteries and Biomass for Zinc–Air Batteries
TL;DR: In this paper , an efficient 3D porous Co-N-C catalyst was designed by combining the recovered metals from spent Li-ion batteries with biomass, and the porous lamellar architecture utilizes the multiple channel structure for effective mass transfer and provides plentiful active sites, thus exhibiting great bifunctional oxygen electrocatalytic activity and stability.
Journal ArticleDOI
Integrated Sn/CNT@N-C hierarchical porous gas diffusion electrode by phase inversion for electrocatalytic reduction of CO2
Xiaofang Lin,Shuai Fan,Zihao Fan,Huiyuan Cheng,Manman Feng,Xuemei Wu,Dongwei Pan,Fujun Cui,Gaohong He +8 more
TL;DR: A 3D integrated hierarchical porous N-doped carbon nanotube (CNT@N-C gas diffusion electrode) was proposed via phase inversion to synergistically improve electron-proton gas transfer and efficiency of CO2 reduction reaction (CO2RR) as discussed by the authors.
Journal ArticleDOI
Boosting the Oxygen Reduction Reaction Behaviour of Ru Single Atoms in Porous Carbon Nanospheres via Microscopic Coordination Environment Manipulation
TL;DR: In this article , a controllable preparation of Ru SAs in N and S modulated porous carbon nanospheres (Ru-SAs-N/S-PCNSs) is presented.
References
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Nitrogen-doped carbon nanotube arrays with high electrocatalytic activity for oxygen reduction.
TL;DR: It is reported that vertically aligned nitrogen-containing carbon nanotubes (VA-NCNTs) can act as a metal-free electrode with a much better electrocatalytic activity, long-term operation stability, and tolerance to crossover effect than platinum for oxygen reduction in alkaline fuel cells.
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Benchmarking Heterogeneous Electrocatalysts for the Oxygen Evolution Reaction
TL;DR: In this paper, the authors report a protocol for evaluating the activity, stability, and Faradaic efficiency of electrodeposited oxygen-evolving electrocatalysts for water oxidation.
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Design of electrocatalysts for oxygen- and hydrogen-involving energy conversion reactions
TL;DR: The emphasis of this review is on the origin of the electrocatalytic activity of nanostructured catalysts toward a series of key clean energy conversion reactions by correlating the apparent electrode performance with their intrinsic electrochemical properties.
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A perovskite oxide optimized for oxygen evolution catalysis from molecular orbital principles.
TL;DR: The high activity of BSCF was predicted from a design principle established by systematic examination of more than 10 transition metal oxides, which showed that the intrinsic OER activity exhibits a volcano-shaped dependence on the occupancy of the 3d electron with an eg symmetry of surface transition metal cations in an oxide.
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Active sites of nitrogen-doped carbon materials for oxygen reduction reaction clarified using model catalysts
TL;DR: In this paper, the oxygen reduction reaction (ORR) active site was characterized by using newly designed graphite (highly oriented pyrolitic graphite) model catalysts with well-defined π conjugation and well-controlled doping of N species.