Manganese oxides (MnOx), being active, inexpensive and low-toxicity materials, are considered promising water oxidation catalysts (WOCs). This work reports the preparation and the physico-chemical and electrochemical characterization of spin-coated (SC) films of commercial Mn2O3, Mn3O4 and MnO2 powders. Spin coating consists of few preparation steps and employs green chemicals (i.e., ethanol, acetic acid, polyethylene oxide and water). To the best of our knowledge, this is the first time SC has been used for the preparation of stable powder-based WOCs electrodes. For comparison, MnOx films were also prepared by means of electrodeposition (ED) and tested under the same conditions, at neutral pH. Particular interest was given to α-Mn2O3-based films, since Mn (III) species play a crucial role in the electrocatalytic oxidation of water. To this end, MnO2-based SC and ED films were calcined at 500 °C, in order to obtain the desired α-Mn2O3 crystalline phase. Electrochemical impedance spectroscopy (EIS) measurements were performed to study both electrode charge transport properties and electrode–electrolyte charge transfer kinetics. Long-term stability tests and oxygen/hydrogen evolution measurements were also made on the highest-performing samples and their faradaic efficiencies were quantified, with results higher than 95% for the Mn2O3 SC film, finally showing that the SC technique proposed here is a simple and reliable method to study the electrocatalytic behavior of pre-synthesized WOCs powders.
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机译:氧化锰(MnOx)是一种活性,廉价且低毒的材料,被认为是很有前途的水氧化催化剂(WOC)。这项工作报告了商用Mn2O3,Mn3O4和MnO2粉体的旋涂(SC)膜的制备以及理化和电化学特性。旋涂包括很少的制备步骤,并使用绿色化学品(即乙醇,乙酸,聚环氧乙烷和水)。据我们所知,这是第一次将SC用于制备稳定的粉末基WOC电极。为了进行比较,还通过电沉积(ED)制备了MnOx膜,并在相同条件下于中性pH下进行了测试。由于Mn(III)物种在水的电催化氧化中起关键作用,因此特别关注基于α-Mn2O3的薄膜。为此,基于MnO 2的SC和ED膜在500℃下煅烧,以获得所需的α-Mn2 O 3结晶相。进行了电化学阻抗谱(EIS)测量,以研究电极电荷传输性质和电极-电解质电荷转移动力学。还对性能最高的样品进行了长期稳定性测试和氧/氢释放量测量,并对它们的法拉第效率进行了定量,对于Mn2O3 SC膜,其结果高于95%,最终表明,本文提出的SC技术是一种简单的方法和可靠的方法来研究预合成的WOCs粉末的电催化行为。
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