Study of Oxygen Reduction Reaction on Bi-Nuclear-Phthalocyanine with Fe-Fe, Co-Co, and Fe-Co Dual-Atom-Active Sites Using Density Functional Theory-Reference-Cited by-同舟云学术

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Study of Oxygen Reduction Reaction on Bi-Nuclear-Phthalocyanine with Fe-Fe, Co-Co, and Fe-Co Dual-Atom-Active Sites Using Density Functional Theory

Published:2022 Issue: Volume: Page:
ISSN:1556-5068
Container-title:SSRN Electronic Journal
language:en
Short-container-title:SSRN Journal

Author:

Kumar Anuj,Ibraheem Shumaila,Das Dipak Kumar,Nadda Ashok Kumar,Zhang Guoxin,Maiyalagan T.,Yasin Ghulam,Gupta Ram K.

Publisher

Elsevier BV

Subject

General Earth and Planetary Sciences,General Environmental Science

Reference19 articles.

1. Recent advances for MOF-derived carbon-supported single-atom catalysts;A Han;Small Methods,2019

2. Design of high efficient oxygen reduction catalyst from the transition metal dimer phthalocyanine monolayer;Y Meng;Applied Surface Science,2019

3. MNC-based single-atom catalysts for H2, O2 & CO2 electrocatalysis: activity descriptors, active sites identification, challenges and prospects;A Kumar;Fuel,2021

4. High-voltage and ultrastable aqueous zinciodine battery enabled by N-doped carbon materials: Revealing the contributions of nitrogen configurations;D Yu;ACS Sustainable Chemistry & Engineering,2020

5. Enhancing oxygen reduction reaction performance via CNTs/graphene supported iron protoporphyrin IX: A hybrid nanoarchitecture electrocatalyst;A Kumar;Diamond and Related Materials,2021

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