Non-thermal plasma has revealed as fast and efficient strategy for the complete elimination of template molecules from SBA-15 materials. Through comparing the textural properties of a set of SBA-15 materials obtained by classical calcination and non-thermal plasma treatment new insights to the SBA-15 structure could be revealed. As such, a third type of microporosity could be disclosed by the use of non-thermal plasma for SBA-15 synthesized at 60 °C. Additionally, starting from a synthesis temperature of 100 °C, template elimination through non-thermal plasma allows for preserving native textural properties of as-synthesized SBA-15. The developed alternative treatment combines the advantages of improved textural properties and higher silanol density, hence making the strategy very promising for superior applications of SBA-15 materials.

非热等离子体显示出一种快速有效的策略，可以从SBA-15材料中完全消除模板分子。通过比较通过经典煅烧和非热等离子体处理获得的一组SBA-15材料的组织特性，可以揭示SBA-15结构的新见解。这样，可以通过使用非热等离子体用于在60℃下合成的SBA-15来公开第三种微孔性。此外，从100°C的合成温度开始，通过非热等离子体消除模板可保留合成后SBA-15的天然纹理特性。所开发的替代处理方法结合了改进的结构特性和更高的硅烷醇密度的优点，因此使该策略对于SBA-15材料的优异应用非常有希望。