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JOURNAL ARTICLE

Ultrafast Dischargeable LiMn2O4 Thin-Film Electrodes with Pseudocapacitive Properties for Microbatteries

Marcus FehseRafael TrócoliEdgar VentosaElba HernándezA. SepúlvedaÀlex MorataAlbert Tarancón

Year: 2017 Journal:   ACS Applied Materials & Interfaces Vol: 9 (6)Pages: 5295-5301   Publisher: American Chemical Society
DOI: 10.1021/acsami.6b15258
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Abstract

LiMn2O4 (LMO) thin films are deposited on Si-based substrates with Pt current collector via multi-layer pulsed-laser-deposition technique. The LMO thin films feature unique kinetics that yield outstanding electrochemical cycling performance in an aqueous environment. At extremely high current densities of up to 1880 μA cm-2 (≈ 348 C), a reversible capacity of 2.6 μAh cm-2 is reached. Furthermore, the electrochemical cycling remains very stable for over 3500 cycles with a remarkable capacity retention of 99.996% per cycle. We provide evidence of significant nondiffusion-controlled, pseudocapacitive-like storage contribution of the LMO electrode.

Keywords:
Materials science Thin film Electrochemistry Electrode Nanotechnology Layer (electronics) Deposition (geology) Chemical engineering Atomic layer deposition Optoelectronics

Metrics

58
Cited By
3.44
FWCI (Field Weighted Citation Impact)
50
Refs
0.94
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Advancements in Battery Materials
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Supercapacitor Materials and Fabrication
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials
Advanced Battery Materials and Technologies
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

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