Recent Advances in Nanostructured Transition Metal Carbide- and Nitride-Based Cathode Electrocatalysts for Li–O<sub>2</sub> Batteries (LOBs): A Brief Review

Recent Advances in Nanostructured Transition Metal Carbide- and Nitride-Based Cathode Electrocatalysts for Li–O<sub>2</sub> Batteries (LOBs): A Brief Review

A large volume of research on lithium–oxygen (Li–O<sub>2</sub>) batteries (LOBs) has been conducted in the recent decades, inspired by their high energy density and power density. However, these future generation energy-storage devices are still subject to technical limitations, includin...

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Main Authors: K. Karuppasamy, K. Prasanna, Vasanth Rajendiran Jothi, Dhanasekaran Vikraman, Sajjad Hussain, Jung-Hoon Hwang, Hyun-Seok Kim
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Nanomaterials
Subjects:
Li–O<sub>2</sub> battery
molybdenum carbide
titanium carbide
nitrides
OER/ORR
Li<sub>2</sub>O<sub>2</sub>
Online Access:https://www.mdpi.com/2079-4991/10/11/2106
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spelling doaj-6e9dd9e55f6143c1b6cb9509df152c4f2020-11-25T04:03:56ZengMDPI AGNanomaterials2079-49912020-10-01102106210610.3390/nano10112106Recent Advances in Nanostructured Transition Metal Carbide- and Nitride-Based Cathode Electrocatalysts for Li–O<sub>2</sub> Batteries (LOBs): A Brief ReviewK. Karuppasamy0K. Prasanna1Vasanth Rajendiran Jothi2Dhanasekaran Vikraman3Sajjad Hussain4Jung-Hoon Hwang5Hyun-Seok Kim6Division of Electronics and Electrical Engineering, Dongguk University-Seoul, Seoul 04620, KoreaAvesta Battery & Energy Engineering, Ransbeekstraat, 310, 1120 Brussels, BelgiumDepartment of Chemical Engineering, Hanyang University, Seoul 04763, KoreaDivision of Electronics and Electrical Engineering, Dongguk University-Seoul, Seoul 04620, KoreaGraphene Research Institute, Sejong University, Seoul 05006, KoreaDivision of Electronics and Electrical Engineering, Dongguk University-Seoul, Seoul 04620, KoreaDivision of Electronics and Electrical Engineering, Dongguk University-Seoul, Seoul 04620, KoreaA large volume of research on lithium–oxygen (Li–O<sub>2</sub>) batteries (LOBs) has been conducted in the recent decades, inspired by their high energy density and power density. However, these future generation energy-storage devices are still subject to technical limitations, including a squat round-trip efficiency and a deprived rate-capability, due to the slow-moving electrochemical kinetics of both the oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) over the surface of the cathode catalyst. Because the electrochemistry of LOBs is rather complex, only a limited range of cathode catalysts has been employed in the past. To understand the catalytic mechanisms involved and improve overall cell performance, the development of new cathode electrocatalysts with enhanced round-trip efficiency is extremely important. In this context, transition metal carbides and nitrides (TMCs and TMNs, respectively) have been explored as potential catalysts to overcome the slow kinetics of electrochemical reactions. To provide an accessible and up-to-date summary for the research community, the present paper reviews the recent advancements of TMCs and TMNs and its applications as active electrocatalysts for LOBs. In particular, significant studies on the rational design of catalysts and the properties of TMC/TMN in LOBs are discussed, and the prospects and challenges facing the continued development of TMC/TMN electrocatalysts and strategies for attaining higher OER/ORR activity in LOBs are presented.https://www.mdpi.com/2079-4991/10/11/2106Li–O<sub>2</sub> batterymolybdenum carbidetitanium carbidenitridesOER/ORRLi<sub>2</sub>O<sub>2</sub>
collection DOAJ
language English
format Article
sources DOAJ
author K. Karuppasamy
K. Prasanna
Vasanth Rajendiran Jothi
Dhanasekaran Vikraman
Sajjad Hussain
Jung-Hoon Hwang
Hyun-Seok Kim
spellingShingle K. Karuppasamy
K. Prasanna
Vasanth Rajendiran Jothi
Dhanasekaran Vikraman
Sajjad Hussain
Jung-Hoon Hwang
Hyun-Seok Kim
Recent Advances in Nanostructured Transition Metal Carbide- and Nitride-Based Cathode Electrocatalysts for Li–O<sub>2</sub> Batteries (LOBs): A Brief Review
Nanomaterials
Li–O<sub>2</sub> battery
molybdenum carbide
titanium carbide
nitrides
OER/ORR
Li<sub>2</sub>O<sub>2</sub>
author_facet K. Karuppasamy
K. Prasanna
Vasanth Rajendiran Jothi
Dhanasekaran Vikraman
Sajjad Hussain
Jung-Hoon Hwang
Hyun-Seok Kim
author_sort K. Karuppasamy
title Recent Advances in Nanostructured Transition Metal Carbide- and Nitride-Based Cathode Electrocatalysts for Li–O<sub>2</sub> Batteries (LOBs): A Brief Review
title_short Recent Advances in Nanostructured Transition Metal Carbide- and Nitride-Based Cathode Electrocatalysts for Li–O<sub>2</sub> Batteries (LOBs): A Brief Review
title_full Recent Advances in Nanostructured Transition Metal Carbide- and Nitride-Based Cathode Electrocatalysts for Li–O<sub>2</sub> Batteries (LOBs): A Brief Review
title_fullStr Recent Advances in Nanostructured Transition Metal Carbide- and Nitride-Based Cathode Electrocatalysts for Li–O<sub>2</sub> Batteries (LOBs): A Brief Review
title_full_unstemmed Recent Advances in Nanostructured Transition Metal Carbide- and Nitride-Based Cathode Electrocatalysts for Li–O<sub>2</sub> Batteries (LOBs): A Brief Review
title_sort recent advances in nanostructured transition metal carbide- and nitride-based cathode electrocatalysts for li–o<sub>2</sub> batteries (lobs): a brief review
publisher MDPI AG
series Nanomaterials
issn 2079-4991
publishDate 2020-10-01
description A large volume of research on lithium–oxygen (Li–O<sub>2</sub>) batteries (LOBs) has been conducted in the recent decades, inspired by their high energy density and power density. However, these future generation energy-storage devices are still subject to technical limitations, including a squat round-trip efficiency and a deprived rate-capability, due to the slow-moving electrochemical kinetics of both the oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) over the surface of the cathode catalyst. Because the electrochemistry of LOBs is rather complex, only a limited range of cathode catalysts has been employed in the past. To understand the catalytic mechanisms involved and improve overall cell performance, the development of new cathode electrocatalysts with enhanced round-trip efficiency is extremely important. In this context, transition metal carbides and nitrides (TMCs and TMNs, respectively) have been explored as potential catalysts to overcome the slow kinetics of electrochemical reactions. To provide an accessible and up-to-date summary for the research community, the present paper reviews the recent advancements of TMCs and TMNs and its applications as active electrocatalysts for LOBs. In particular, significant studies on the rational design of catalysts and the properties of TMC/TMN in LOBs are discussed, and the prospects and challenges facing the continued development of TMC/TMN electrocatalysts and strategies for attaining higher OER/ORR activity in LOBs are presented.
topic Li–O<sub>2</sub> battery
molybdenum carbide
titanium carbide
nitrides
OER/ORR
Li<sub>2</sub>O<sub>2</sub>
url https://www.mdpi.com/2079-4991/10/11/2106
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