Design of Novel Porous Organic Polymers (POPs) as Robust Heterogeneous Catalyst in Biomass Conversion and Bio-Fuel Upgrading.
Date Aurhor Name
Porous organic polymers (POPs) have received an increased level of research interest in many practical applications such as gas storage, separation, controlled release of drugs, catalysis, sensors etc due to their huge surface area, well-defined pore size distribution, high hydrothermal, mechanical stability. From the past several years various methodologies including direct templating, block copolymer self-assembly, and direct synthesis have been applied for the synthesis of porous polymers....
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Size and Morphology Controlled Nanocatalysis: Green & Sustainable Chemistry
Date Aurhor Name
Design and development of nanocatalysts involving the use of various nanostructured materials in nanometre and sometimes even atomic or molecular scales have achieved a rapid progress in nanoscience and technology for a variety of catalytic applications to deliver fine organic chemicals with high atomic efficiency diminishing the production of polluting by-products. Very recently, morphology-dependent and size controlled nanocatalysis has emerged an increasing attention in surface science and....
Development of Magnetically Recoverable Nanocatalysts
Date Aurhor Name
Although nanocatalysts enjoy several advantages over conventional catalyst systems; however, isolation and recovery of these tiny nanocatalysts from the reaction mixture is not easy. Conventional techniques (such as filtration) are not efficient because of the nano size of the catalyst particles. This limitation hampers the economics and sustainability of these nanocatalytic protocols. To overcome this issue, the use of magnetic nanoparticles has emerged as a viable solution....
Synthesis of Porous Organic Polymer (POP) based Hybrid Materials as Novel Photocatalyst
Date Aurhor Name
Hydrogen Evolution Reaction (HER) has emerged as an increasing research interest, providing future role of H2 as a principal energy source which could substitute the depleting fossil fuel resources. Efficient sustainable H2 generation from biomass-derived alcohols (photoreforming) and H2O (most abundant element on earth) employing water electrolysis and.....
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