Moleküler Kontrol ve Yüzey Modifikasyonu ile İnorganik-Organik Hibrit, Fonksiyonel Nanomalzemeler

Abstract

In the current nanotechnological perspective, fundamental materials such as ceramics, metals, polymers, composites, glass or wood and their specific characteristics can be combined at the molecular level for the synthesis and implementation of new functional nanomaterials. Therefore, durability or acid-base resistance of the ceramic materials can be supported or modified with the properties of flexible organic polymeric structures to produce unusual hybrid nanomaterials. From this perspective, starting from the molecular precursors, atomic precision and integrated production techniques were successfully applied for the novel hybrid nanomaterials with distinctive features. Obtained new nanomaterials were utilized as functional surface coatings or in adsorption, filtration or other optical applications. In the same manner, scratch or corrosion prevention, UV protection, acid-base resistance, fluorescence character, superhydrophobic/self cleaning features, hardness and many other tailored properties were obtained in one distinctive material. Since developed products usually start with cheap, effective, long lasting and controllable precursors, our new material approach represents a highly attractive route for the synthesis and production of highly desirable novel hybrid structures for different applications.