Nanotechnology for Rural Development Micro and Nano Technologies Series
Auteurs : Kumar Narendra, Dixit Ambesh
Nanotechnology for Rural Development is designed to present nanotechnology-based solutions to the challenges faced by rural populations, particularly in underdeveloped and developing countries. The book focuses on agriculture, biomass management, food processing and water management, in terms of its purification and decontamination. The treatment of wastewater and the harnessing of renewable energy are also covered. In addition, the book deals with the application of nanotechnology in the areas of consumer goods, such as textiles, ceramics, food processing and packaging, and other related spheres.
The book provides information on the green synthesis of nanomaterials, using prevalent natural resources and their applications for textiles, ceramics, portiere, and food packaging. It also addresses low-cost solutions using materials such as biomass waste for water purification and decontamination. For example, lignocellulosic biomass can be converted into nutrient adsorbents, energy, fuel and storage. Above all, it protects agriculture crops from insects and other pests, and produces quality products in high yields.
This volume offers insight into the intricacies of the problems faced by large populations living in rural areas, particularly in underdeveloped and developing countries. It also discusses the natural renewable resources available locally and how nanotechnology can best use them to increase the quality and yield of agricultural products, as well as how to engage the population, specifically women, in gainful productive activities.
1. Nanotechnology in rural development2. Nanotechnology in agriculture3. Nanotechnology in processing, preservation, and packing of food4. Management of biomass5. Nanotechnology in water management6. Energy for rural development7. Employment opportunities in rural areas
Dr Ambesh Dixit (PhD, 2010, Wayne State University, Michigan, USA) is an Associate Professor at the Indian Institute of Technology Jodhpur, India. He has more than ten years’ experience in computational and experimental condensed matter physics with a special emphasis on the design and development of materials for different applications. He has edited two books with Springer and authored another, as well as published his research in several international journals. He is an Editorial Board member of the Elsevier journal 'Vacuum', a life member of the Materials Research Society of India, the Magnetic Society of India, the Indian Carbon Society, and an annual member of IEEE since 2019 and of the American Physical Society since 2007.
- Outlines the major nanomaterial types used for suitable agricultural systems
- Shows how nanotechnology is being used to create more effective food processing and energy harvesting systems
- Assesses the major challenges in rolling out nanotechnology-based agricultural systems in developing countries
Date de parution : 03-2021
Ouvrage de 274 p.
19x23.4 cm
Thème de Nanotechnology for Rural Development :
Mots-clés :
Agriculture; Biochar; Biodegradable; Biomass; Biopesticides; Biorefinery; Energy generation; Food-processing technologies; Genetic engineering; Green synthesis; Information and communication technology; Infrastructure; Microorganisms; Nanoencapsulation; Nanomaterial; Nanomaterials; Nanomedicine; Nanotechnology; Packing; Pollutants; Pollution; Preservation; Processing; Purification; Quality; Renewable; Renewable energy; Rural development; Solar energy; Solar thermal technology; Solvent evaporation technique; Technologies; Urban area; Waste heat management; Water