Template free synthesis of vacancy tailored, highly mesoporous one-dimensional δ-MnO2 for energy storage applications

Aswini Ramakrishnan, Sindhu Swaminathan, Jeyanthinath Mayandi, Deepa K G
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Abstract

This work involves the synthesis of highly conducting, ultra-thin, mesoporous manganese dioxide, nanotubes and nanowires, using a sol–gel technique. This is a template-free method for preparing mesoporous (3.3 to 5.4 nm) nanotubes and nanowires of 10–15 nm radius with surface area (221.19 m2/g-102.09 m2/g). In the MnO2 lattice, oxygen and cationic vacancies are tailored by changing the reducing agent for improved energy storage. X-ray photoelectron spectroscopic studies are conducted to quantify the oxygen and cationic vacancies. The tailored one-dimensional δ-MnO2 is used as an electrode material for symmetric and asymmetric supercapacitor designs. A non-toxic, less volatile aqueous neutral electrolyte is used for the supercapacitive measurement, giving a specific capacitance of 460.75 F g−1 at 2 mV s−1 with symmetric mode at 1 V. With activated carbon, this material can also produce asymmetric supercapacitors with a specific capacitance of 107.38 F g−1 at 10 mV s−1 at 1.7 V.
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无模板合成用于储能应用的空位定制高介孔一维 δ-MnO2
这项工作涉及利用溶胶-凝胶技术合成高导电性、超薄、介孔二氧化锰、纳米管和纳米线。这是一种无模板方法,用于制备半径为 10-15 nm、表面积为 221.19 m2/g-102.09 m2/g 的介孔(3.3 至 5.4 nm)纳米管和纳米线。在二氧化锰晶格中,通过改变还原剂来定制氧和阳离子空位,从而改善能量存储。通过 X 射线光电子能谱研究对氧和阳离子空位进行了量化。定制的一维 δ-MnO2 可用作对称和非对称超级电容器设计的电极材料。超级电容测量使用的是无毒、挥发性较低的水性中性电解质,在 1 V 的对称模式下,2 mV s-1 的比电容为 460.75 F g-1。利用活性碳,这种材料还能产生不对称超级电容器,在 1.7 V 时,10 mV s-1 的比电容为 107.38 F g-1。
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