Organometallic Nanomaterials Synthesis and Sustainable Green Nanotechnology Applications
Mohammad Harun‐Ur‐Rashid, Abu Bin Imran
Abstract
Implementing sustainable green nanotechnology applications of organometallic nanomaterials would be the best way to resolve the present confrontations using environmentally benign solvents, reduce energy consumption, select renewable feedstock, eliminate wastage sources and design high-performance materials through theoretical predictions. This chapter presents an overview of the previous and present trends, status, and perspectives of synthetic routes for organometallic hybrid nanomaterials, including their background, composition, fabrication processes, and promising applications in sustainable green nanotechnology products. It addresses an inclusive analysis with a specific concentration on the advantages, drawbacks, and prospects of organometallic hybrid nanomaterials synthesized, especially for green and sustainable nanotechnology applications. The evolution of application-oriented organometallic nanomaterials is generally centered on selecting and screening substructure designs through computational approaches. In addition to the design and development of such nanomaterials, the defiance of production methods is fairly essential to consider.