Evidence of the Electrochemical Ca2+ Intercalation in Anatase Nanotubes

IF 5.1 4区 材料科学 Q2 ELECTROCHEMISTRY
Andrea Ceppetelli, Matteo Busato, Gabriele Dilena, Carmen Cavallo, Maria Assunta Navarra, Paola D'Angelo, Laura Silvestri, Priscilla Reale, Antonino Santoni, Lorenzo Stievano, Sergio Brutti
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Abstract

Here, we demonstrate the electrochemical intercalation of Ca2+ ions within the lattice of anatase nanotubes (a-NTs) synthesized by hydrothermal treatment of TiO2/NaOH precursors followed by Na+/H+ ion exchange and H2O-loss at high temperature in air. Scanning electron microscopy, X-ray diffraction, and Raman spectroscopy confirm the formation of nanosized anatase, whereas transmission electron microscopy highlights the formation of nanotubular morphologies with an average diameter of 10 nm. TiO2 electrodes are able to deliver reversible specific capacities in aprotic batteries vs. calcium metal or in hybrid configurations vs. capacitive activated carbon using aprotic electrolytes (i. e., Ca(BH4)2 in tetrahydrofuran or Ca(TFSI)2 in dimethoxyethane, respectively). The electrochemical intercalation of Ca2+ ions into the anatase lattice is confirmed by X-ray absorption spectroscopy in close comparison with Na+ and Li+ intercalations. Ca2+ incorporation leads to the partial amorphization of the TiO2 lattice despite the limited Ca/Ti ratio (i. e., 0.09) obtained in discharge. The analysis of the extended X-ray absorption fine structure region allows the determination of the local structure of the incorporated Ca2+ ions and confirms that a disordered environment is obtained after the electrochemical reaction.

Abstract Image

铝钛矿纳米管中电化学 Ca2+ 互嵌的证据
在这里,我们展示了通过对 TiO2/NaOH 前驱体进行水热处理,然后在空气中高温进行 Na+/H+ 离子交换和 H2O 失重合成的锐钛矿纳米管(a-NTs)晶格内 Ca2+ 离子的电化学插层。扫描电子显微镜、X 射线衍射和拉曼光谱证实了纳米级锐钛矿的形成,而透射电子显微镜则强调了平均直径为 10 纳米的纳米管形态的形成。钛氧化物电极在无水电池中与金属钙相比,或在混合配置中与使用无水电解质(即四氢呋喃中的 Ca(BH4)2 或二甲氧基乙烷中的 Ca(TFSI)2)的电容活性碳相比,都能提供可逆的比容量。通过 X 射线吸收光谱与 Na+ 和 Li+ 的插层相比,证实了 Ca2+ 离子在锐钛矿晶格中的电化学插层。尽管在放电过程中获得的 Ca/Ti 比值有限(即 0.09),但 Ca2+ 的加入导致了 TiO2 晶格的部分非晶化。通过对扩展 X 射线吸收精细结构区域的分析,可以确定掺入的 Ca2+ 离子的局部结构,并证实电化学反应后获得了无序环境。
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来源期刊
CiteScore
8.60
自引率
5.30%
发文量
223
期刊介绍: Electrochemical energy storage devices play a transformative role in our societies. They have allowed the emergence of portable electronics devices, have triggered the resurgence of electric transportation and constitute key components in smart power grids. Batteries & Supercaps publishes international high-impact experimental and theoretical research on the fundamentals and applications of electrochemical energy storage. We support the scientific community to advance energy efficiency and sustainability.
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