Paramagnetic molecular centers in the gamma-irradiated precipitates obtained in the system AlCl3-beta-alanine-NaOH

Takialdin A. Himdan, Vesna Noethig-Laslo, Halka Bilinski
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引用次数: 1

Abstract

The presented results are the continuation of our work on paramagnetic molecular centers in the model clay compounds. Here it was attempted to incorporate β-alanine in the aluminium hydroxide matrix. A series of precipitates were prepared with the highest ratio of β-alanine/Al = 0.22 obtained at pH = 7.

X-ray diffraction analysis revealed in addition to amorphous precipitates, microcrystalline samples of four different X-ray patterns in nine precipitates, indicating variations in the structure of aluminium hydroxide matrix with incorporated β-alanine. Selected samples were exposed to γ-irradiation at 77 K, and at room temperature (293 K) in the presence and in the absence of air. In all the samples of amorphous structure no stable paramagnetic centers were determined by ESR after γ-irradiation in air.

In all samples of microcrystalline structure similar stable paramagnetic centers were determined by ESR after γ-irradiation in air and in the evacuated tubes. These paramagnetic centers that we were unable to identify due to the poor resolution of the lines in the ESR spectrum can be most probably ascribed to structural defects introduced into the aluminium hydroxide matrix by β-alanine.

In all amorphous samples γ-irradiated in the absence of air, the radical C̊H2CH2COOH formed by abstraction of amino group from the β-alanine was determined by ESR. The radical was unstable in air. Thus in the absence of air β-alanine may be considered as a storage site for the γ-irradiation energy in the amorphous aluminium hydroxides.

alcl3 - β -丙氨酸- naoh体系中γ辐照沉淀物的顺磁分子中心
所提出的结果是我们对模型粘土化合物中顺磁性分子中心的工作的继续。本文试图将β-丙氨酸掺入到氢氧化铝基体中。在pH = 7时,β-丙氨酸/Al的比值最高,为0.22。x射线衍射分析显示,除了非晶析出物外,9种析出物中还存在4种不同的x射线模式的微晶样品,这表明掺入β-丙氨酸的氢氧化铝基体结构发生了变化。选择的样品分别在77 K和室温(293 K)下暴露于有空气和没有空气的情况下。在空气中γ辐照后,用ESR测定了非晶态结构样品中没有稳定的顺磁中心。在空气和真空管中辐照后,用ESR测定了微晶结构样品相似的稳定顺磁中心。由于ESR谱线分辨率不高,我们无法识别这些顺磁中心,这很可能是由于β-丙氨酸引入氢氧化铝基体的结构缺陷。在无空气条件下辐照的无定形样品中,用ESR法测定了β-丙氨酸提取氨基形成的自由基C _ H2CH2COOH。自由基在空气中不稳定。因此,在没有空气的情况下,β-丙氨酸可以被认为是无定形氢氧化铝中γ辐照能的储存位点。
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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