(PDF) In Situ Generated Dual-Template Method for Fe/N/S

In Situ Generated Dual-Template Method for Fe/N/S Co-Doped Hierarchically Porous Honeycomb Carbon for High-Performance Oxygen Reduction

doi 10.1021/acsami.7b19645.s001

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In Situ Generated Dual-Template Method for Fe/N/S Co-Doped Hierarchically Porous Honeycomb Carbon for High-Performance Oxygen Reduction

doi 10.1021/acsami.7b19645.s001

Full Text

Abstract

Date

Authors

Publisher

Related search

Rational Construction of Hierarchically Porous Fe–Co/N-Doped Carbon/rGO Composites for Broadband Microwave Absorption

Template-Free Ultraspray Pyrolysis Synthesis of N/Fe-Doped Carbon Microspheres for Oxygen Reduction Electrocatalysis

In Situ Self-Template Synthesis of FeN-Doped Double-Shelled Hollow Carbon Microspheres for Oxygen Reduction Reaction

Hybrid Nanostructures: Co–Fe Alloy/N‐Doped Carbon Hollow Spheres Derived From Dual Metal–Organic Frameworks for Enhanced Electrocatalytic Oxygen Reduction (Small 13/2019)

Shrimp-Shell Derived Carbon Nanodots as Precursors to Fabricate Fe,N-Doped Porous Graphitic Carbon Electrocatalysts for Efficient Oxygen Reduction in Zinc–air Batteries

Monodisperse Co9S8 Nanoparticles in Situ Embedded Within N, S-Codoped Honeycomb-Structured Porous Carbon for Bifunctional Oxygen Electrocatalyst in a Rechargeable Zn–air Battery

Correction: B, N-Dual Doped Sisal-Based Multiscale Porous Carbon for High-Rate Supercapacitors

M(Salen)-Derived Nitrogen-Doped M/C (M = Fe, Co, Ni) Porous Nanocomposites for Electrocatalytic Oxygen Reduction

Melamine Formaldehyde - Metal Organic Gel Interpenetrating Polymer Network Derived Intrinsic Fe-N- Doped Porous Graphitic Carbon Electrocatalysts for Oxygen Reduction Reaction