Abstract
Block copolymers exhibit intriguing property to self-assemble materials in different shapes with compositional heterogeneities. One of the potential and successful example of which is assembling of Santa Barbara Amorphous (SBA) family, which is comprised of uniformly distributed hierarchical nanopores. However, as such SBA materials lack acidic or basic properties compared to zeolite or conventional basic catalysts, respectively, and hence this limits its application as potential catalysts. The incorporation of single or multiple organic functional groups onto these inorganic supports leads to hybrid organic-inorganic materials with tailored physicochemical properties which may be useful in many applications. This book chapter focuses on the different organic functionalities introduced on nanoporous materials assembled using block copolymers via in situ or ex situ methods and their applications in catalysis, drug delivery, CO adsorption, and utilization.
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Yadav, R., Sakthivel, A. (2020). Selective Catalytic Applications Over Functionalized Nanoporous Materials Assembled Using Block Copolymer. In: Hussain, C., Thomas, S. (eds) Handbook of Polymer and Ceramic Nanotechnology. Springer, Cham. https://doi.org/10.1007/978-3-030-10614-0_25-1
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