Harnessing Synthetic Nanotechnology Based Methodologies For Sustainable Green Applications
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Harnessing Synthetic Nanotechnology-Based Methodologies for Sustainable Green Applications
Author: Gérrard Eddy Jai Poinern
language: en
Publisher: CRC Press
Release Date: 2023-07-24
Nanotechnology is at the forefront of many of the latest developments across science and technology, but to generate and deploy these applications, macroscopic levels of nanoscale materials have to be carefully generated whilst remaining cost effective. These materials need to be reliable, consistent, and safe, and as a general principle, industries should consider green sustainable methods in the synthesis of these material and their applications as well. This book introduces readers to the field of green nanotechnologies and their possible applications to create a safer world. This accessible and practical guide will be a useful resource for material scientists, engineers, chemists, biotechnologists, and scientists working in the space of nanomaterials, in addition to graduate students in physics, chemistry, biomedical sciences and engineering. THIS BOOK Presents an accessible introduction to the topic in addition to more advanced material for specialists in the field. Covers a broad spectrum of topics in this new field. Contains exciting case studies and examples, such as quantum dots, bionanomaterials, and future perspectives. Dr Gérrard E.J. Poinern holds a Ph.D. in Physics from Murdoch University, Western Australia and a Double Major in Physics and Chemistry. Currently he is an Associate Professor in Physics and Nanotechnology in the School of Engineering and Information Technology at Murdoch University. He is the director of Murdoch Applied Innovation and Nanotechnology Research Group, Murdoch University. In 2003, he discovered and pioneered the use of an inorganic nanomembrane for potential skin tissue engineering applications. He is the recipient of a Gates Foundation Global Health Grand Challenge Exploration Award for his work in the development of biosynthetic materials and their subsequent application in the manufacture of biomedical devices. He is also the author of the 2014 CRC Press experimental textbook "A Laboratory Course in Nanoscience and Nanotechnology". Associate Professor Suraj Kumar Tripathy is Associate Dean of the School of Chemical Technology at Kalinga Institute of Industrial Technology, Bhubaneswar, India. He currently leads the Chemical & Bioprocess Engineering Lab (CBEL) at KIIT which focuses on achieving sustainability in materials processing and utilization. CBEL explores opportunities in valorization of waste materials (secondary resources) and investigate their applications in catalysis, water treatment, and biomedical systems. CBEL also works closely with industries to develop suitable waste management and resource recycling strategies to optimize the potential of circular economy model. Dr. Derek Fawcett is the Defence Science Centre research fellow at Murdoch University, Australia. His research involves the investigation and development of new advanced materials and their use in innovative engineering systems. He has published over seventy peer-reviewed research papers in international journals and is the co-author of four book chapters on applied nanotechnology.
Nanofertilizers for Sustainable Agriculture
This book covers the use and impacts of nanofertilizers from a sustainable agriculture perspective and together with its companion book “Nanofertilizers in Agriculture: Synthesis, Mechanisms, and Effect on Plants” serves as an indispensable resource for researchers, agronomists, and policymakers exploring sustainable agriculture with nanotechnology. Divided into 4 main sections, the book begins with a critical overview of the impact of nanofertilizers on the ecosystem, their toxicity, and implications on the protection of the environment, followed by a section devoted to the use of nanoparticles for disease management. Subsequent sections offer a perspective of nanofertilizers in soil and water health, and economical analysis. In this book, readers will find chapters covering topics such as the toxicity of nano fertilizers due to overuse, their role in controlling soil-borne fungal pathogens, and their potential for safe and sustainable agriculture with a focus on organic farming. Readers will also gain insights into nanotechnology applications for plant pathogen detection, viral disease management, and nematode disease control. The authors present an expert analysis of the impact of nano fertilizers on soil properties, crop productivity, groundwater, and soilless agricultural systems. This book is particularly valuable for researchers in agricultural science, and it is also relevant for environmental scientists interested in sustainable practices and nanotechnologists exploring agricultural applications. Practitioners such as farmers and agronomists will find practical insights for integrating nanotechnology into their work. This volume is a must-read for anyone invested in the future of sustainable agriculture.
Harnessing High-Performance Computing and AI for Environmental Sustainability
The world is addressing the insistent challenge of climate change, and the need for innovative solutions has become paramount. In this period of technical developments, artificial intelligence (AI) has emerged as a powerful instrument with enormous prospects to combat climate change and other environmental subjects. AI's ability to process vast amounts of data, identify patterns, and make intelligent predictions offers unprecedented opportunities to tackle this global crisis. High-Performance Computing (HPC) or super-computing environments address these large and complex challenges with individual nodes (computers) working together in a cluster (connected group) to perform massive amounts of computing in a short period. Creating and removing these clusters is often automated in the cloud to reduce costs. Computer networks, communication systems, and other IT infrastructures have a growing environmental footprint due to significant energy consumption and greenhouse gas emissions. To address this seemingly self-defeating conundrum, and create a truly sustainable environment, new energy models, algorithms, methodologies, platforms, tools, and systems are required to support next-generation computing and communication infrastructures. Harnessing High-Performance Computing and AI for Environmental Sustainability navigates through AI-driven solutions from sustainable agriculture and land management to energy optimization and smart grids. It unveils how AI algorithms can analyze colossal datasets, offering unprecedented insights into climate modeling, weather prediction, and long-term climate trends. Integrating AI-powered optimization algorithms revolutionizes energy systems, propelling the transition towards a low-carbon future by reducing greenhouse gas emissions and enhancing efficiency. This book is ideal for educators, environmentalists, industry professionals, and researchers alike, and it explores the ethical dimensions and policies surrounding AI's contribution to environmental development.