Apically Dominant Mechanism for Improving Catalytic Activities of N-Doped Carbon Nanotube Arrays in Rechargeable Zinc-Air Battery-Reference-Cited by-同舟云学术

Apically Dominant Mechanism for Improving Catalytic Activities of N-Doped Carbon Nanotube Arrays in Rechargeable Zinc-Air Battery

Published:2018-04-14 Issue:20 Volume:8 Page:1800480
ISSN:1614-6832
Container-title:Advanced Energy Materials
language:en
Short-container-title:Adv. Energy Mater.

Author:

Niu Wenhan¹,Pakhira Srimanta²³⁴⁵,Marcus Kyle⁶,Li Zhao⁶,Mendoza-Cortes Jose L.²³⁴⁵⁷,Yang Yang¹⁶^ORCID

Affiliation:

1. NanoScience Technology Center; University of Central Florida; Orlando FL 32826 USA

2. Department of Chemical & Biomedical Engineering; Florida A&M University - Florida State University; Joint College of Engineering Tallahassee FL 32310 USA

3. Condensed Matter Theory; National High Magnetic Field Laboratory (NHMFL); Florida State University (FSU); Tallahassee FL 32310 USA

4. Materials Science and Engineering; High-Performance Materials Institute (HPMI); Florida State University; Tallahassee FL 32310 USA

5. Department of Scientific Computing; 400 Dirac Science Library; Florida State University; Tallahassee FL 32306-4120 USA

6. Department of Materials Science and Engineering; University of Central Florida; Orlando FL 32826 USA

7. Department of Physics; Florida State University; Tallahassee FL 32310 USA

Funder

University of Central Florida

Florida State University

Publisher

Wiley

Subject

General Materials Science,Renewable Energy, Sustainability and the Environment

Reference25 articles.

1. Advanced zinc-air batteries based on high-performance hybrid electrocatalysts

2. A metal-free bifunctional electrocatalyst for oxygen reduction and oxygen evolution reactions

3. Surface-Modified Porous Carbon Nitride Composites as Highly Efficient Electrocatalyst for Zn-Air Batteries

4. Defect Engineering of Chalcogen-Tailored Oxygen Electrocatalysts for Rechargeable Quasi-Solid-State Zinc-Air Batteries

5. In Situ Coupling of Strung Co4N and Intertwined N–C Fibers toward Free-Standing Bifunctional Cathode for Robust, Efficient, and Flexible Zn–Air Batteries

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