Tuning the charge distribution and crystal field of iron single atoms via iron oxide integration for enhanced oxygen reduction reaction in zinc-air batteries
Author:
Publisher
Elsevier BV
Subject
Electrochemistry,Energy (miscellaneous),Energy Engineering and Power Technology,Fuel Technology
Reference66 articles.
1. A review of nanocarbons in energy electrocatalysis: Multifunctional substrates and highly active sites
2. Simultaneously Integrate Iron Single Atom and Nanocluster Triggered Tandem Effect for Boosting Oxygen Electroreduction
3. Enhanced bifunctional catalytic activities of N-doped graphene by Ni in a 3D trimodal nanoporous nanotubular network and its ultralong cycling performance in Zn-air batteries
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1. Graphitized carbon-anchored FeSe nanoparticles for stable and efficient bifunctional electrocatalyst in rechargeable zinc-air batteries;Journal of Power Sources;2024-11
2. Effective porous carbon electrocatalyst derived from Angelica-offcuts for oxygen reduction reaction;Molecular Catalysis;2024-11
3. Progress and challenges in engineering the atomic structure of oxygen electrocatalysts for zinc-air batteries;Chemical Engineering Journal;2024-10
4. Synthesis of core-shell MoC@C(Nx) nanoparticles by DC arc plasma as highly efficient and durable oxygen reduction reaction catalyst for zinc-air battery;Journal of Energy Storage;2024-08
5. Electronic Structure Regulation of MnCo2O4 via Surface‐Phosphorization Coupling to Monolithic Carbon for Oxygen Electrocatalysis in Zn–Air Batteries;Advanced Functional Materials;2024-07
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