Abstract
Fabrication of block copolymer (BCP) template-assisted nano-catalysts has been a subject of immense interest in the field of catalysis and polymer chemistry for more than two decades now. Different methods, such as colloidal route, on-substrate methods, bulk self-assembly approaches, combined approaches, and many others have been used to prepare such nano-catalysts. The present review focuses on the advances made in this direction using diblock, triblock, and other types of BCP self-assembled structures. It will be shown how interestingly, researchers have exploited the features of tunable periodicity, domain orientation, and degree of lateral orders of self-assembled BCPs by using fundamental approaches, as well as using different combinations of simple methods to fabricate efficient catalysts. These approaches allow for fabricating catalysts that are used for the growth of single- and multi-walled carbon nanotubes (CNTs) on the substrate, size-dependent electrooxidation of the carbon mono oxide, cracking of 1,3,5-triisopropylbenzene (TIPB), methanol oxidation, formic acid oxidation, and for catalytic degradation of dyes and water pollutants, etc. The focus will also be on how efficient and ease-of-use catalysts can be fabricated using different BCP templates, and how these have contributed to the fabrication of different nano-catalysts, such as nanoparticle array catalysts, strawberry and Janus-like nanoparticles catalysts, mesoporous nanoparticles and film catalysts, gyroid-based bicontinuous catalysts, and hollow fiber membrane catalysts.
Highlights
Introduction and ScopeIn recent years, a lot of interest has been shown by researchers in the field of block copolymer (BCP)-assisted synthesis of functionalmaterials for various applications, such as membranes [1,2], catalysis [3,4,5], drug delivery [6,7,8,9], gas absorption [10], etc
The present review shows that significant progress has been made in preparing a broad range of nano-catalysts from self-assembled block copolymer templates
The present review summarizes the approaches that have been used until now for fabricating such catalytic nanostructures, using a block copolymer self-assembly
Summary
Introduction and ScopeIn recent years, a lot of interest has been shown by researchers in the field of block copolymer (BCP)-assisted synthesis of functional (nano)materials for various applications, such as membranes [1,2], catalysis [3,4,5], drug delivery [6,7,8,9], gas absorption [10], etc. An extremely large spectrum of self-assembled BCP morphologies with tuneable periodicity, domain orientation, and degrees of lateral order provide enormous potential for the synthesis of various functional (nano-)materials with targeted characteristics and properties. Using the BCP micellar template approach, one can fabricate ordered arrays of nanoparticles (NPs) of desired size and control the interparticle spacing by selecting the BCP of suitable molecular weight, length of the block segments, or using different solvents [18].
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