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Literature DB >> 23289098

Carbon supported TiN nanoparticles: an efficient bifunctional catalyst for non-aqueous Li-O2 batteries.

Fujun Li¹, Ryohji Ohnishi, Yuki Yamada, Jun Kubota, Kazunari Domen, Atsuo Yamada, Haoshen Zhou.

Abstract

A Li-O(2) battery with TiN nanoparticles supported on Vulcan XC-72, n-TiN/VC, as the cathode catalyst presented an onset potential for the oxygen evolution reaction (OER) at 2.9 V, contrasting with a mixture of micro-sized TiN and VC (m-TiN/VC), and VC, both at ~3.1 V. The discharge-recharge voltage gap of n-TiN/VC was estimated to be 1.05 V, which is 390 and 450 mV smaller than that of m-TiN/VC and VC, respectively, at 50 mA g(carbon)(-1). These indicate that n-TiN/VC can function as both an active ORR catalyst during discharge and an efficient OER catalyst during recharge.

Entities: Chemical

Year: 2013 PMID： 23289098 DOI： 10.1039/c2cc37042e

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

5 in total

Carbon supported TiN nanoparticles: an efficient bifunctional catalyst for non-aqueous Li-O2 batteries.

1. A stable cathode for the aprotic Li-O2 battery.

2. Pyridine-based Liquid-Phase Synthesis of Crystalline TiN and ZnSiN₂ Nanoparticles.

3. A Carbon- and Binder-Free Nanostructured Cathode for High-Performance Nonaqueous Li-O₂ Battery.

4. Ruthenium nanocrystals as cathode catalysts for lithium-oxygen batteries with a superior performance.

5. Single crystalline Co3O4 nanocrystals exposed with different crystal planes for Li-O2 batteries.

Carbon supported TiN nanoparticles: an efficient bifunctional catalyst for non-aqueous Li-O2 batteries.

1. A stable cathode for the aprotic Li-O2 battery.

2. Pyridine-based Liquid-Phase Synthesis of Crystalline TiN and ZnSiN2 Nanoparticles.

3. A Carbon- and Binder-Free Nanostructured Cathode for High-Performance Nonaqueous Li-O2 Battery.

4. Ruthenium nanocrystals as cathode catalysts for lithium-oxygen batteries with a superior performance.

5. Single crystalline Co3O4 nanocrystals exposed with different crystal planes for Li-O2 batteries.

2. Pyridine-based Liquid-Phase Synthesis of Crystalline TiN and ZnSiN₂ Nanoparticles.

3. A Carbon- and Binder-Free Nanostructured Cathode for High-Performance Nonaqueous Li-O₂ Battery.