以克拉斯诺阿尔梅斯克源矿泉水为基础研制纳米硒治疗和预防方法的研究

Madina Nastueva, Dmitry V. Kompantsev, G. Sagradyan, I. Privalov, A. Airapetova, A. Serov
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引用次数: 2

摘要

研究了含硒纳米颗粒矿泉水的制备工艺及其稳定性。所研究的样品——含硒纳米粒子的浓缩溶液中硒的含量约为1.4 mg/ml,取自Krasnoarmeysky的矿泉水。用光子相关光谱法在纳米水平上评价矿泉水纳米粒子的变化,具有方便性、可靠性和信息量大的优点。本文介绍了水动力半径为- 37,5-38纳米的硒纳米颗粒与红军源矿泉水混合后聚集体稳定性的研究结果。通过分散颗粒的大小来评价混合物的稳定性。重点研究了混合后颗粒在超声辐射、阳光直射、低温和室温等多种物理因素影响下的稳定性。贮存后,对各溶液的参数进行了研究。研究结果表明,在较低的温度下,同时进行简单混合制备的样品具有最大的稳定性,并且具有最小直径和最小分层率的颗粒。关键词:纳米硒,Krasnoarmeysky源矿泉水,光子相关光谱法,纳米粒子稳定性,聚集体稳定性
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Development of Treatment and Prophylactic Means with Selenium Nanoparticles on the Basis of Mineral Water of the Krasnoarmeysk Source for Application in Balneology
The purpose of the study is development technology of receiving mineral waters with nanoparticles of selenium and studying of their stability. The studied samples — the concentrated solution of nanoparticles of selenium contens selenium about 1,4 mg/ml, mineral water of the Krasnoarmeysky source. The expediency, reliability and informational content of a method of photon correlation spectroscopy are shown for assessment of changes in system mineral water – nanoparticles on a nanolevel. Results of researches on studying of aggregate stability of nanoparticles of selenium with a hydrodynamic radius – 37,5-38 nanometers by mixing with mineral water of the Red Army source are presented in article. The stability of the mixtures was evaluated by the size of dispersed particles. In particular stability of particles directly after mixing and under the influence of various physical factors – ultrasonic radiation, an exposition by direct sunlight, the lowered temperature and room temperature is studied. After of storage, the parameters of each of the solutions were studied. As a result of the conducted research the conclusion is drawn that the sample has the maximum stability which prepared by simple mixing at the same time at storage him at the lowered temperature of a particle have the smallest diameter and least are exposed to stratification on fraction. Keywords—nanoselenium, mineral water of the Krasnoarmeysky source, method of photon correlation spectroscopy, stability of nanoparticles, aggregate stability
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