Properties of silica porous glasses with the nanoparticle ensembles of some compounds

IF 0.9 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Physics and Chemistry of Solid State Pub Date : 2023-06-20 DOI:10.15330/pcss.24.2.323-334

Y. Lepikh, I. Doycho

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Abstract

Properties porous silica glasses are systemized in this review. Also the methods of formation of the nanoparticles’ ensembles of the substances, which are useful for the microelectronics, are described. Porous silica glasses are perspective due to their chemically resistance, mechanical strength and development of their inner surface. Own electrical resistance is too big for the porous glasses’ specimens with standard sizes, that’s why ones use them as matrixes for luminescence type of sensors mainly. The luminescent properties’ dependence on the molecular structure of investigate substances (such as dyes and metal oxides), as well as on the nanoparticle ensemble technological formation condition is studied. It is revealed to which certain gases dyes of the specified type are sensitive and why it occurs in such manners. It is shown due to which of the described nano-size systems’ properties sensitivity is appeared. Besides, one can embed a conductive phase into the pores of glass due to features of its structure. After such treatment one can use the porous glasses as matrix for formation of resistance type sensors.

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含某些化合物纳米粒子系综的二氧化硅多孔玻璃的性能

本文系统介绍了多孔硅玻璃的性能。本文还介绍了在微电子学中有用的物质的纳米粒子系综的形成方法。多孔硅玻璃因其耐化学性、机械强度和内表面的发展而备受关注。对于标准尺寸的多孔玻璃试样来说，其自身的电阻太大，这就是为什么人们主要将其作为发光型传感器的基体。研究了发光性能对所研究物质(如染料和金属氧化物)分子结构以及纳米粒子系综工艺形成条件的依赖。它揭示了特定类型的某些气体染料是敏感的，以及为什么会以这种方式发生。结果表明，由于所描述的纳米系统的性质，出现了灵敏度。此外，由于玻璃的结构特点，可以将导电相嵌入到玻璃的孔隙中。经过这样的处理，人们可以使用多孔玻璃作为形成电阻型传感器的基质。

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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来源期刊

Physics and Chemistry of Solid State Multiple-

CiteScore

1.70

自引率

14.30%

发文量