Gas Adsorption Properties of 12CaO・7Al2O3 Electride Derived from Limestone

Journal of Mmij Pub Date : 2019-10-31 DOI:10.2473/journalofmmij.135.89

H. Sugiyama, Youqing Chen

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Abstract

･ 7Al 2 O 3 electride is one of the outstanding materials expected to be applied in various fields such as electronics and catalyst, and generally fabricated by sintering high purity CaCO 3 and Al 2 O 3 . We attempted to fabricate 12CaO ･ 7Al 2 O 3 electride using limestone as a raw material instead of using high purity CaCO 3 aiming at further industrial use, and investigated the gas adsorption properties of the fabricated samples. Three samples, two from limestone and one from high purity CaCO 3 , were prepared and exposed to the atmosphere for about 9 hours, and then the gas adsorption properties of them were analyzed by Py-GC/MS. As a result, desorption of N 2 and O 2 which are abundant in the atmosphere was not observed by heating the samples exposed to the atmosphere up to 700 ℃ , while desorption of CO and CH 4 was identiﬁ ed. It is implied that the desorbed CO originates from CO 2 in the atmosphere. This result indicates these samples might selectively adsorb CO 2 and CH 4 as compared with N 2 and O 2 . Furthermore, for the limestone derived samples, the selectivity of CO 2 and CH 4 adsorption was improved and this result indicated the possibility that the CO 2 adsorption capacity of these samples is higher than that made from high purity CaCO 3 . One reason of this phenomena is inferred the changes in the electronic state of material surfaces due to the doping of impurities contained in limestones, such as Mg, Sr, and Cu, into the Ca sites of the cage-like structure in 12CaO ･ 7Al 2 O 3 electride.

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石灰石12CaO·7Al2O3电化物的气体吸附性能

7al2o3电极是有望应用于电子和催化剂等各个领域的优秀材料之一，通常由高纯caco3和al2o3烧结而成。为了进一步实现工业用途，我们尝试以石灰石为原料，代替高纯碳酸钙制备12CaO - 7al2o3电极，并对制备样品的气体吸附性能进行了研究。制备了3个样品，其中2个来自石灰石，1个来自高纯caco3，并在大气中暴露约9小时，然后用Py-GC/MS分析了它们的气体吸附特性。结果表明，将样品暴露在大气中加热至700℃时，未观察到大气中丰富的n2和o2的解吸，而CO和ch4的解吸，表明解吸的CO来源于大气中的co2。这一结果表明，与氮和氧相比，这些样品可以选择性地吸附co2和ch4。此外，对于石灰石衍生样品，CO 2和CH 4的选择性得到了提高，这一结果表明，这些样品的CO 2吸附能力可能高于由高纯caco3制成的样品。这种现象的一个原因是由于石灰石中含有的杂质，如Mg、Sr和Cu，掺杂到12CaO 7Al 2o3电极笼状结构的Ca位点上，导致材料表面电子态的变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Mmij

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