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Innovative Materials for Environmental and Aerospace Applications
In settings where environmentally friendly practices and policies are prioritized, sustainability and technological progress thrive, making it essential to study and evaluate innovative approaches. Emerging research in materials science is driving innovative solutions for environmental and aerospace engineering by developing materials that are lighter, stronger, and more sustainable. These advancements not only support greener technologies but also enhance performance, pushing the boundaries of what is possible in aerospace and environmental applications. Innovative Materials for Environmental and Aerospace Applications serves as an inclusive compilation of cutting-edge studies that address important challenges in two connected fields. It explores unique materials and methods that not only strengthen performance but also promote environmental stewardship. Covering topics such as aerospace engineering, hydrogen production, and water purification, this book is an excellent resource for environmental scientists, aerospace professionals, materials scientists, sustainability professionals, academicians, researchers, graduate and postgraduate students, and more.
Innovative Materials for Industrial Applications: Synthesis, Characterization and Evaluation
The exploration of innovative materials for industrial applications advance technology and engineering while driving improvements across various sectors. This process involves the synthesis of new materials with enhanced properties, followed by characterization and evaluation to ensure their suitability for industrial uses. Techniques like nanotechnology, biomaterials development, and composites engineering are paving the way for materials that are stronger, lighter, and more sustainable. By focusing on the lifecycle of these materials, from creation to performance in real-world applications, researchers and industries can address challenges like resource scarcity and environmental impact wh...
Photoactive Nanomaterials
The energy transition is one of the key approaches in the effort to halt climate changes, and it has become even more essential in the light of the recent COVID-19 pandemic. Fostering the energy efficiency and the energy independence of the building sector is a focal aim to move towards a decarbonized society. In this context, building physics and building energy systems are fundamental disciplines based on applied physics applications in civil, architectural, and environmental engineering, including technical themes related to the planning of energy and the environment, diagnostic methods, and mitigating techniques. This Special Issue contains information on experimental studies in the following research topics: renewable energy sources, building energy analysis, rational use of energy, heat transmission, heating and cooling systems, thermofluid dynamics, smart energy systems, and energy service management in buildings.
Diversity and Applications of New Age Nanoparticles
Nanoparticles are revolutionizing and helping to improve every sector including engineering, medicine, food safety, transportation, energy, and environmental science. To ensure industries take full advantage of the opportunities nanoparticles provide, further study on the advancements and challenges within the field is required. Diversity and Applications of New Age Nanoparticles considers new developments and applications of nanoparticles and addresses the development of new materials, synthesis routes, and emerging research in this field. Covering key topics such as antibiotics, thin films, battery technologies, and composites, this premier reference source is ideal for industry professionals, computer scientists, policymakers, engineers, pharmacists, medical professionals, researchers, scholars, practitioners, instructors, and students.
Innovations and Applications of Hybrid Nanomaterials
In the field of materials science, traditional materials often fall short in meeting the demands of contemporary industries, where multifunctionality, enhanced performance, and adaptability are pivotal. This unmet need highlights a compelling problem—a gap in materials that can truly revolutionize various sectors. As industries strive for advancements, a new challenge emerges: the scarcity of materials capable of performing multiple functions efficiently across domains. This predicament forms the backdrop against which Innovations and Applications of Hybrid Nanomaterials offers a comprehensive exploration of hybrid nanomaterials poised to bridge this critical gap. Innovations and Applicatio...
Sustainability, Safety, and Applications of Nanomaterials-Based Corrosion Inhibitors
In an era defined by the imperatives of sustainability and technological innovation, the quest for effective corrosion prevention solutions has assumed unprecedented significance. Against the backdrop of global challenges such as climate change, aging infrastructure, and resource depletion, nanomaterials-based corrosion inhibitors offer a promising pathway towards enhancing the durability, safety, and environmental sustainability of critical systems. Sustainability, Safety, and Applications of Nanomaterials-Based Corrosion Inhibitors contextualizes the relevance of nanotechnology in addressing these pressing concerns, highlighting its role in advancing sustainable development goals and fostering resilience in the face of corrosion-related challenges. It discusses how nanotechnology can revolutionize corrosion inhibition strategies for the sustainable development of infrastructure in the 21st century. Covering topics such as coating techniques, space exploration, and aerospace engineering, this book is a useful resource for engineers, scientists, researchers, industry professionals, business owners, and academicians.
Carbon Nanomaterials in Biomedicine and the Environment
Carbon nanomaterials possess special physical and chemical properties. As adsorbents, they are widely used for the purification of water and other liquids, recovery of valuable substances from liquid and gaseous media, and oil refining and also in petrochemical, wine, oil and fat, and other industries. They can be used in medicine, both for the creation of hemosorption systems that are capable of performing specific purification of blood and other physiological fluids, including removal of various exo- and endotoxicants, and for the construction of highly effective adsorbed probiotics. The creation of nanostructured carbon-containing materials is one of many rapidly developing research fields and also the theme of this book. The book focuses on the recent developments in the synthesis of nanostructured carbon multifunctional sorbents and covers topics such as fusicoccin compounds as anticancer agents, entero- and vulnerosorption, and blood purification. It will be useful for scientists, chemical industry specialists, professors, and master’s and PhD students of chemical, physical, and biological sciences.
Innovative Materials for Environmental and Aerospace Applications
In settings where environmentally friendly practices and policies are prioritized, sustainability and technological progress thrive, making it essential to study and evaluate innovative approaches. Emerging research in materials science is driving innovative solutions for environmental and aerospace engineering by developing materials that are lighter, stronger, and more sustainable. These advancements not only support greener technologies but also enhance performance, pushing the boundaries of what is possible in aerospace and environmental applications. Innovative Materials for Environmental and Aerospace Applications serves as an inclusive compilation of cutting-edge studies that address important challenges in two connected fields. It explores unique materials and methods that not only strengthen performance but also promote environmental stewardship. Covering topics such as aerospace engineering, hydrogen production, and water purification, this book is an excellent resource for environmental scientists, aerospace professionals, materials scientists, sustainability professionals, academicians, researchers, graduate and postgraduate students, and more.
Bioseparation Engineering
The bioseparation engineering of today includes downstream process engineering such as waste water, material and gas treatment. Taking this tendency into account, bioseparation engineers gathered in Japan as a special research group under the main theme of "Recovery and Recycle of Resources to Protect the Global Environment".The scope of this book is based on the conference, and deals not only with recent advances in bioseparation engineering in a narrow sence, but also the environmental engineering which includes waste water treatment and bioremediation. The contributors of this book cover many disciplines such as chemical engineering, analytical chemistry, biochemistry, and microbiology.Bioseparation Engineering will stimulate young engineers and scientists who will develop bioseparation engineering further in the 21st century, and contribute to a world-wide attention to the global environment
