Nanotechnology: A Quick Guide to Materials and Technologies

Sustainable Nanostructured Materials for Organic Synthesis

Author(s): Iqra Sadiq, Farha Naaz, Mohd Fazil and Tokeer Ahmad * .

Pp: 104-151 (48)

DOI: 10.2174/9789815256772124010007

* (Excluding Mailing and Handling)

Abstract

Nanocatalysis represents a burgeoning field of study that is used across a wide range of catalytic organic reactions. The significance of nanotechnology is progressively growing in various industrial sectors as well as in academic research. The enhancement of catalytic selectivity and activity in nanocatalysts is observed as the size of the catalyst decreases and the surface area-to-volume ratio increases. Similarly, the morphology of particles plays a crucial role in influencing the activity and selectivity of nanocatalysts. Various types of nanocatalysts have been documented, encompassing single-metal nanocatalysts, simple/mixed metal-oxide derived nanocatalysts, and carbon-based nanocatalysts. Nanocatalysts based on noble, rare earth and transition metals have been extensively investigated in both industrial and academic areas. This is primarily due to their significant application in various chemical reactions, including carbon-heteroatom cross-coupling reactions, carbon-carbon homocoupling reactions, carbon-carbon cross-coupling reactions, esterification, C-H activation, hydrogenation, oxidation, and reduction. Currently, the analysis is centered on most recent advancements and potential applications of nanocatalysts in various chemical processes.

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