Phase separated glass

Porous glass is glass that includes pores, usually in the nanometre- or micrometre-range, commonly prepared by one of the following processes: through metastable phase separation in borosilicate glasses (such as in the system SiO₂-B₂O₃-Na₂O), followed by liquid extraction of one of the formed phases; through the sol-gel process; or simply by sintering glass powder.

The specific properties and commercial availability of porous glass make it one of the most extensively researched and characterized amorphous solids. Due to the possibility of modeling the microstructure, porous glasses have a high potential as a model system. They show a high chemical, thermal and mechanical resistance, which results from a rigid and incompressible silica network. They can be produced in high quality and with pore sizes ranging from 1 nm up to any desired value. An easy functionalization of the inner surface opens a wide field of applications for porous glasses.

A further special advantage of porous glasses compared to other porous materials, is that they can be made not only as powder or granulate, but also as larger pieces in almost any user defined shape and texture.

In the first half of the 20th century, Turner and Winks discovered that borosilicate glasses can be leached by acids. Their investigations showed that not only the chemical stability can be influenced by thermal treatment but also density, refractive index, thermal expansion and viscosity. In 1934, Nordberg and Hood discovered that alkali borosilicate glasses separate in soluble (sodium borate rich) and insoluble (silica rich) phases if the glass is thermally treated. By extraction using mineral acids the soluble phase can be removed and a porous silica network remains. During a sintering process after extraction, a silica glass is generated, which has properties approaching those of quartz glass. The manufacturing of such high-silica glasses has been published as the VYCOR-process.

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