Yingxin Guan scite author profile

Metal oxide coatings can improve the electrochemical stability of cathodes and hence, their cycle-life in rechargeable batteries. However, such coatings often impose an additional electrical and ionic transport resistance to cathode surfaces leading to poor charge-discharge capacity at high C-rates. Here, a mixed oxide (Al2O3)1-x(Ga2O3)x alloy coating, prepared via atomic layer deposition (ALD), on Li[Ni0.5Mn0.3Co0.2]O2 (NMC) cathodes is developed that has increased electron conductivity and demonstrated an improved rate performance in comparison to uncoated NMC. A "co-pulsing" ALD technique was used which allows intimate and controlled ternary mixing of deposited film to obtain nanometer-thick mixed oxide coatings. Co-pulsing allows for independent control over film composition and thickness in contrast to separate sequential pulsing of the metal sources. (Al2O3)1-x(Ga2O3)x alloy coatings were demonstrated to improve the cycle life of the battery. Cycle tests show that increasing Al-content in alloy coatings increases capacity retention; whereas a mixture of compositions near (Al2O3)0.5(Ga2O3)0.5 was found to produce the optimal rate performance.

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Enhanced Activity and Stability of TiO₂-Coated Cobalt/Carbon Catalysts for Electrochemical Water Oxidation

Kim

Jackson

Lee

et al. 2015

ACS Catal.

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TiO2-coated Co/C catalysts prepared by atomic layer deposition (ALD) were used to study the effect of TiO2 overcoating on a Co/C catalyst for electrochemical water oxidation. The Co/C catalyst with a thin-layer overcoating of TiO2 (ALD(TiO2)-Co/C) demonstrated 2.5 times higher turnover frequency (TOF) than the Co/C catalyst for the reaction. The TOF of the ALD(TiO2)-Co/C catalyst increased when the ALD(TiO2) coating cycle number was increased from 5 to 60. In addition, the stability of the 60 cycle ALD(TiO2)-Co/C catalyst was enhanced compared to the Co/C catalyst. This work shows how the ALD synthesis technique can be used to improve the catalytic activity and stability of nonprecious-metal-based catalysts like Co/C for electrochemical water oxidation.

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Distinct Nucleation and Growth Kinetics of Amorphous SrTiO₃ on (001) SrTiO₃ and SiO₂/Si: A Step toward New Architectures

Chen

Yusuf

Guan

et al. 2017

ACS Appl. Mater. Interfaces

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Integration of emerging complex-oxide compounds into sophisticated nanoscale single-crystal geometries faces significant challenges arising from the kinetics of vapor-phase thin-film epitaxial growth. A comparison of the crystallization of the model perovskite SrTiO (STO) on (001) STO and oxidized (001) Si substrates indicates that there is a viable alternative route that can yield three-dimensional epitaxial synthesis, an approach in which STO is crystallized from an amorphous thin film by postdeposition annealing. The crystallization of amorphous STO on single-crystal (001) STO substrates occurs via solid-phase epitaxy (SPE), without nucleation and with a temperature-dependent amorphous/crystalline interface velocity. In comparison, the crystallization of STO on SiO/(001) Si substrates requires nucleation, resulting in a polycrystalline film with crystal sizes on the order of 10 nm. A comparison of the temperature dependence of the nucleation and growth processes for these two substrates indicates that it will be possible to create crystalline STO materials using low-temperature crystallization from a crystalline seed, even in the presence of interfaces with other materials. These processes provide a potential route for the formation of single crystals with intricate three-dimensional nanoscale geometries.

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Self-limiting growth when using trimethyl bismuth (TMBi) in the metal-organic vapor phase epitaxy (MOVPE) of GaAs1−yBiy

Forghani

Guan

Wood

et al. 2014

Journal of Crystal Growth

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Radiation-induced segregation in a ceramic

et al. 2020

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Yingxin Guan

Atomic Layer Deposition of Al₂O₃–Ga₂O₃ Alloy Coatings for Li[Ni_0.5Mn_0.3Co_0.2]O₂ Cathode to Improve Rate Performance in Li-Ion Battery

Enhanced Activity and Stability of TiO₂-Coated Cobalt/Carbon Catalysts for Electrochemical Water Oxidation

Distinct Nucleation and Growth Kinetics of Amorphous SrTiO₃ on (001) SrTiO₃ and SiO₂/Si: A Step toward New Architectures

Self-limiting growth when using trimethyl bismuth (TMBi) in the metal-organic vapor phase epitaxy (MOVPE) of GaAs1−yBiy

Radiation-induced segregation in a ceramic

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Yingxin Guan

Atomic Layer Deposition of Al2O3–Ga2O3 Alloy Coatings for Li[Ni0.5Mn0.3Co0.2]O2 Cathode to Improve Rate Performance in Li-Ion Battery

Enhanced Activity and Stability of TiO2-Coated Cobalt/Carbon Catalysts for Electrochemical Water Oxidation

Distinct Nucleation and Growth Kinetics of Amorphous SrTiO3 on (001) SrTiO3 and SiO2/Si: A Step toward New Architectures

Self-limiting growth when using trimethyl bismuth (TMBi) in the metal-organic vapor phase epitaxy (MOVPE) of GaAs1−yBiy

Radiation-induced segregation in a ceramic

Contact Info

Product

Resources

About

Atomic Layer Deposition of Al₂O₃–Ga₂O₃ Alloy Coatings for Li[Ni_0.5Mn_0.3Co_0.2]O₂ Cathode to Improve Rate Performance in Li-Ion Battery

Enhanced Activity and Stability of TiO₂-Coated Cobalt/Carbon Catalysts for Electrochemical Water Oxidation

Distinct Nucleation and Growth Kinetics of Amorphous SrTiO₃ on (001) SrTiO₃ and SiO₂/Si: A Step toward New Architectures