Green Nanoarchitectonics: Smart Natural Materials

This book explores the design and synthesis of greener nanomaterials for industrial applications, focusing on their eco-friendly utilization and cost-effective synthesis from natural extracts. It discusses the links between nanoparticle design/fabrication and catalytic performance in various applications, including photocatalysis, wastewater treatment, environmental ecology, medical biology, biotechnology, sensors, cosmetics, remediation, energy, and phytoformulation.

Format: Hardback
Length: 298 pages
Publication date: 29 December 2022
Publisher: Jenny Stanford Publishing

This comprehensive book delves into the latest advancements in the design and synthesis of environmentally friendly nanomaterials, emphasizing their eco-conscious utilization at the industrial level. It establishes essential material descriptors necessary for their effective integration into diverse applications and explores cost-efficient methods of their synthesis from natural extracts. The text establishes a strong connection between the creation and performance of nanoparticles in various fields, including photocatalysis, wastewater treatment, environmental ecology, medical biology, biotechnology, sensors, cosmetics, remediation, energy, and phytoformulation.

The book begins by providing an overview of the current landscape in nanomaterials research, highlighting the urgent need for sustainable and environmentally friendly solutions. It then delves into the fundamental principles and characteristics of nanomaterials, discussing their size, shape, and surface properties, which play a crucial role in determining their catalytic performance.

Chapter 1 explores the synthesis of nanomaterials from natural sources, emphasizing the advantages of using renewable and biodegradable materials. It discusses various methods, such as sol-gel synthesis, microemulsion synthesis, and template-directed synthesis, and highlights the importance of controlling the size, shape, and surface properties of the resulting nanoparticles for optimal catalytic activity.

Chapter 2 focuses on the design and fabrication of nanoparticles, emphasizing the importance of controlling their size, shape, and surface properties to achieve desired catalytic performance. It discusses various techniques, such as template-directed synthesis, self-assembly, and lithography, and highlights the significance of surface modification and functionalization to enhance the catalytic activity and stability of the nanoparticles.

Chapter 3 explores the application of nanomaterials in photocatalysis, highlighting their potential for environmental remediation and energy conversion. It discusses the use of semiconductor nanoparticles, such as TiO2 and ZnO, as photocatalysts for the degradation of organic pollutants, the conversion of solar energy into electricity, and the reduction of greenhouse gas emissions.

Chapter 4 focuses on the application of nanomaterials in wastewater treatment, emphasizing their ability to remove pollutants, enhance the efficiency of water treatment processes, and promote the reuse of water resources. It discusses the use of magnetic nanoparticles, carbon nanotubes, and graphene oxide as adsorbents, catalysts, and sensors for wastewater treatment.

Chapter 5 explores the application of nanomaterials in environmental ecology, highlighting their potential for monitoring and remediation of environmental pollution. It discusses the use of quantum dots, fluorescent nanoparticles, and nanosensors for the detection of pollutants, the monitoring of soil and water quality, and the remediation of contaminated sites.

Chapter 6 focuses on the application of nanomaterials in medical biology, emphasizing their potential for drug delivery, imaging, and therapy. It discusses the use of nanomaterials, such as liposomes, nanoparticles, and dendrimers, as drug carriers, imaging agents, and therapeutics for various diseases, including cancer, Alzheimer's, and diabetes.

Chapter 7 focuses on the application of nanomaterials in biotechnology, emphasizing their potential for tissue engineering, biosensing, and genetic modification. It discusses the use of nanomaterials, such as biomaterials, nanofibers, and nanotubes, as scaffolds for tissue regeneration, biosensors for the detection of biological markers, and tools for genetic modification.

Chapter 8 focuses on the application of nanomaterials in sensors, emphasizing their potential for the detection of various environmental and biological parameters. It discusses the use of nanomaterials, such as carbon nanotubes, graphene, and gold nanoparticles, as sensors for the detection of pollutants, the detection of biological markers, and the monitoring of environmental conditions.

Chapter 9 focuses on the application of nanomaterials in cosmetics, emphasizing their potential for skin care, hair care, and personal care products. It discusses the use of nanomaterials, such as nanosilver, titanium dioxide, and zinc oxide, as anti-aging agents, sunscreens, and skin care products.

Chapter 10 focuses on the application of nanomaterials in remediation, emphasizing their potential for the removal of pollutants and the restoration of contaminated sites. It discusses the use of nanomaterials, such as magnetic nanoparticles, superparamagnetic beads, and phytochemicals, as adsorbents, catalysts, and remediation agents for various pollutants, including heavy metals, pesticides, and organic compounds.

Chapter 11 focuses on the application of nanomaterials in energy, emphasizing their potential for the development of sustainable and efficient energy storage and conversion systems. It discusses the use of nanomaterials, such as lithium-ion batteries, fuel cells, and solar cells, as energy storage devices, energy conversion devices, and renewable energy sources.

Chapter 12 focuses on the application of nanomaterials in phytoformulation, emphasizing their potential for the development of natural and organic products. It discusses the use of nanomaterials, such as nanosilver, chitosan, and plant extracts, as preservatives, emulsifiers, and active ingredients in various personal care and food products.

In conclusion, this comprehensive book provides a detailed and up-to-date exploration of the latest developments in the design and synthesis of greener nanomaterials, emphasizing their eco-conscious utilization at the industrial level. It serves as a valuable resource for researchers, scientists, engineers, and policymakers interested in advancing sustainable and environmentally friendly technologies. By highlighting the connection between the design/fabrication of nanoparticles and their catalytic performance in various applications, the book offers valuable insights into the potential of nanomaterials to address pressing global challenges, such as environmental pollution, energy sustainability, and healthcare.

Weight: 739g
Dimension: 229 x 152 (mm)
ISBN-13: 9789814968508