Nanocatalysis: Applications and Technologies

Synthesis and design of new nanocatalysts is an important area of research with the necessity of nanostructuring the active sites to achieve successful designs. This book covers the progress in this research area done in the last ten years, including catalysts' classification and structure of active sites at the nanoscale, with examples to present the concept and evolution of nanocatalysts.

Format: Paperback / softback
Length: 304 pages
Publication date: 31 March 2021
Publisher: Taylor & Francis Ltd

Synthesis and design of novel nanocatalysts hold immense significance in advancing research, with the ultimate goal of introducing a multitude of valuable applications in a more environmentally friendly market. The crucial aspect of nanostructuring the active sites has become paramount in achieving successful catalyst design. This comprehensive book comprehensively covers the advancements in this field over the past decade. It delves into the classification of catalysts and the intricate structure of active sites at the nanoscale. Furthermore, it provides illustrative examples to elucidate the concept, evolution, and diverse applications of nanocatalysts, drawing from the realm of chemistry and materials science.

The significance of nanocatalysts lies in their ability to enhance chemical reactions, often leading to more efficient and sustainable processes. By tailoring the properties of catalysts, scientists can achieve specific reactions with greater selectivity and speed, reducing the use of harmful chemicals and minimizing environmental impact. One notable area of research involves the development of nanocatalysts for renewable energy applications. These catalysts can convert solar energy, wind energy, and other renewable sources into usable forms of energy, such as electricity or fuel. By utilizing nanocatalysts, we can increase the efficiency of these conversion processes, making renewable energy more accessible and cost-effective.

In addition to renewable energy, nanocatalysts have significant applications in various industries, including pharmaceuticals, chemical production, and environmental remediation. For instance, nanocatalysts can be used to improve the efficiency of drug discovery and development by catalyzing complex chemical reactions. They can also be employed in the production of chemicals and materials with reduced environmental impact, such as using nanocatalysts to convert waste into valuable products.

Furthermore, nanocatalysts have the potential to address pressing global challenges such as climate change and environmental pollution. By developing efficient and sustainable solutions, nanocatalysts can help mitigate the impact of human activities on the environment. For example, nanocatalysts can be used to convert greenhouse gas emissions into harmless compounds, reducing the impact of climate change.

Despite the numerous benefits of nanocatalysts, there are also challenges that need to be addressed. One of the main challenges is the synthesis and characterization of high-quality nanocatalysts, which requires specialized techniques and equipment. Additionally, the scalability of nanocatalysts remains a significant concern, as the production of large quantities of these materials can be costly and challenging.

To overcome these challenges, researchers are continuously exploring new materials and techniques for nanocatalyst synthesis. They are also working towards developing more efficient and cost-effective manufacturing processes, which can help make nanocatalysts more accessible to a wider range of applications.

In conclusion, the synthesis and design of novel nanocatalysts represent a rapidly evolving field with immense potential for introducing valuable applications in a greener market. By leveraging the unique properties of nanostructured materials, scientists can achieve specific reactions with greater efficiency and sustainability. As research continues to progress, nanocatalysts will undoubtedly play a pivotal role in addressing global challenges and improving the quality of life for people around the world.

Weight: 576g
Dimension: 234 x 156 (mm)
ISBN-13: 9780367780258