TiO2 Nanotube Layers Decorated with Al2O3/MoS2/Al2O3 as Anode for Li-ion Microbatteries with Enhanced Cycling Stability

TiO2 Nanotube Layers Decorated with Al2O3/MoS2/Al2O3 as Anode for Li-ion Microbatteries with Enhanced Cycling Stability

TiO2 nanotube layers (TNTs) decorated with Al2O3/MoS2/Al2O3 are investigated as a negative electrode for 3D Li-ion microbatteries. Homogenous nanosheets decoration of MoS2, sandwiched between Al2O3 coatings within self-supporting TNTs was carried out using atomic layer deposition (ALD) process. The...

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Veröffentlicht in:Nanomaterials (Basel, Switzerland) Switzerland), 2020-05, Vol.10 (5), p.953
Hauptverfasser: Tesfaye, Alexander Teklit, Sopha, Hanna, Ayobi, Angela, Zazpe, Raul, Rodriguez-Pereira, Jhonatan, Michalicka, Jan, Hromadko, Ludek, Ng, Siowwoon, Spotz, Zdenek, Prikryl, Jan, Macak, Jan M., Djenizian, Thierry
Format: Artikel
Sprache:eng
Schlagworte:
Al2O3
Aluminum oxide
atomic layer deposition
Atomic layer epitaxy
Decoration
Electrochemical analysis
Electrochemistry
Electrodes
Electrolytes
Energy
Li-ion microbatteries
Lithium ions
Microbatteries
Molybdenum
Molybdenum disulfide
Morphology
MoS2
Nanotubes
Photoelectron spectroscopy
Photoelectrons
Scanning transmission electron microscopy
Spectrum analysis
TiO2 nanotube
Titanium dioxide
Transmission electron microscopy
X-ray spectroscopy
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Zusammenfassung:TiO2 nanotube layers (TNTs) decorated with Al2O3/MoS2/Al2O3 are investigated as a negative electrode for 3D Li-ion microbatteries. Homogenous nanosheets decoration of MoS2, sandwiched between Al2O3 coatings within self-supporting TNTs was carried out using atomic layer deposition (ALD) process. The structure, morphology, and electrochemical performance of the Al2O3/MoS2/Al2O3-decorated TNTs were studied using scanning transmission electron microscopy, energy dispersive X-ray spectroscopy, X-ray photoelectron spectroscopy, and chronopotentiometry. Al2O3/MoS2/Al2O3-decorated TNTs deliver an areal capacity almost three times higher than that obtained for MoS2-decorated TNTs and as-prepared TNTs after 100 cycles at 1C. Moreover, stable and high discharge capacity (414 µAh cm−2) has been obtained after 200 cycles even at very fast kinetics (3C).
ISSN:2079-4991
2079-4991
DOI:10.3390/nano10050953