Atomic Layer Deposition of Aluminum Sulfide: Growth Mechanism and Electrochemical Evaluation in Lithium-Ion Batteries

Xiangbo Meng; Yanqiang Cao; Joseph A. Libera; Jeffrey W. Elam

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Atomic Layer Deposition of Aluminum Sulfide: Growth Mechanism and Electrochemical Evaluation in Lithium-Ion Batteries

机译：硫化铝的原子层沉积：锂离子电池中的生长机理和电化学评价

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This study describes the synthesis of aluminum sulfide (AlS_x) thin films by atomic layer deposition (ALD) using tris(dimethylamido)aluminum and hydrogen sulfide. We employed a suite of in situ measurement techniques to explore the ALD AlS_x growth mechanism, including quartz crystal microbalance, quadrupole mass spectrometry, and Fourier transform infrared spectroscopy. A variety of ex situ characterization techniques were used to determine the growth characteristics, morphology, elemental composition, and crystallinity of the resultant AlS_x films. This study revealed that the AlS_x growth was self-limiting in the temperature range 100–250 °C, and the growth per cycle decreased linearly with increasing temperature from ?0.45 ?/cycle at 100 °C to ?0.1 ?/cycle at 250 °C. The AlS_x films were amorphous in this temperature range. We conducted electrochemical testing to evaluate the ALD AlS_x as a potential anode material for lithium-ion batteries (LIBs). The ALD AlS_x exhibited reliable cyclability over 60 discharge–charge cycles with a sustainable discharge capacity of 640 mAh/g at a current density of 100 mA/g in the voltage window of 0.6–3.5 V.]]>

机译：<！[cdata [ src ='http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/cmatex/2017/cmatex.2017.29.issue-21/acs.chemmater.7b02175/ 20171108 /图像/介质/ cm-2017-021755_0010.gif“>本研究描述了通过原子层沉积（ALD）的硫化铝（Als _{x ）薄膜的合成使用Tris（二甲基氨基）铝和硫化氢。我们采用了一套原位测量技术来探索ALD ALS _{X / I> 生长机制，包括石英晶体微稳定，四极谱质谱和傅立叶变换红外光谱。使用各种EX原位表征技术来确定所得ALS _{X-/ Sem>膜的生长特性，形态，元素组合物和结晶度。该研究表明，Als _{x 生长在100-250℃的温度范围内自动限制，每周期的生长线性降低，温度升高到0.45？ /循环在100°C至0.1？/循环在250°C。 Als _{x 膜在该温度范围内是无定形的。我们进行了电化学测试，以评估Ald Als _{x 作为锂离子电池（libs）的潜在阳极材料。 ALD ALS _{x 在电压窗口中的电流密度为640mAh / g的可持续放电容量，可持续放电容量为60 mAh / g的可靠性可循环性。 0.6-3.5 v。]]]>}}}}}}} 展开▼

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《Chemistry of Materials: A Publication of the American Chemistry Society》 |2017年第21期|共10页

作者
Xiangbo Meng; Yanqiang Cao; Joseph A. Libera; Jeffrey W. Elam;
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Department of Mechanical Engineering University of Arkansas Fayetteville Arkansas 72701 United States;

Energy Systems Argonne National Laboratory 9700 South Cass Avenue Argonne Illinois 60439 United States;

Energy Systems Argonne National Laboratory 9700 South Cass Avenue Argonne Illinois 60439 United States;

Energy Systems Argonne National Laboratory 9700 South Cass Avenue Argonne Illinois 60439 United States;

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正文语种 eng

中图分类工程材料学;

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Atomic Layer Deposition of Aluminum Sulfide: Growth Mechanism and Electrochemical Evaluation in Lithium-Ion Batteries

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