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Functional nanohybrid materials derived from kaolinite
Abstract The first studies reporting the intercalation of organic compounds in kaolinite appeared in the 1960's. From that time, many advances have been achieved in this field. They are mainly concerned with the mastering and control of the intercalation processes, with the elucidation of various structural interactions between the intercalated compounds and the functionalities of the interlayer spaces, and with the covalent grafting of a variety of compounds on the internal surfaces. A new type of nanohybrid materials was developed, which displayed several potential interesting applications in various research area as clay polymer nanocomposites, adsorbents, electrochemical sensors or catalysts, among others.
Functional nanohybrid materials derived from kaolinite
Abstract The first studies reporting the intercalation of organic compounds in kaolinite appeared in the 1960's. From that time, many advances have been achieved in this field. They are mainly concerned with the mastering and control of the intercalation processes, with the elucidation of various structural interactions between the intercalated compounds and the functionalities of the interlayer spaces, and with the covalent grafting of a variety of compounds on the internal surfaces. A new type of nanohybrid materials was developed, which displayed several potential interesting applications in various research area as clay polymer nanocomposites, adsorbents, electrochemical sensors or catalysts, among others.
Functional nanohybrid materials derived from kaolinite
Dedzo, Gustave Kenne (Autor:in) / Detellier, Christian (Autor:in)
Applied Clay Science ; 130 ; 33-39
12.01.2016
7 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Functional nanohybrid materials derived from kaolinite
| Online Contents | 2016
Functional nanohybrid materials derived from kaolinite
| Online Contents | 2016