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Materials for Sustainable Energy Applications
The impending energy crisis brought on by the running out of finite and non-homogenously distributed fossil fuel reserves and the worldwide increase in energy demand has prompted vast research in the development of sustainable energy technologies in the last few decades. However, the efficiency of most of these new technologies is relatively small and therefore it needs to be increased to eventually replace conventional technologies based on fossil fuels. The required efficiency increase primarily relies on the ability to improve the performance of the functional materials which are at the heart of these technologies. The purpose of this book is to give a unified and comprehensive presentation of the fundamentals and the use and design of novel materials for efficient sustainable energy applications, such as conversion, storage, transmission, and consumption. The book presents general coverage of the use and design of advanced materials for sustainable energy applications. Thus, the book addresses all the relevant aspects, such as materials for energy conversion, storage, transmission, and consumption.
Chemical Vapor Deposition for Nanotechnology
Chemical vapor deposition (CVD) techniques have played a major role in the development of modern technology, and the rise of nanotechnology has further increased their importance, thanks to techniques such as atomic layer deposition (ALD) and vapor liquid solid growth, which are able to control the growth process at the nanoscale. This book aims to contribute to the knowledge of recent developments in CVD technology and its applications. To this aim, important process innovations, such as spatial ALD, direct liquid injection CVD, and electron cyclotron resonance CVD, are presented. Moreover, some of the most recent applications of CVD techniques for the growth of nanomaterials, including graphene, nanofibers, and diamond-like carbon, are described in the book.
Atomic Layer Deposition
Atomic layer deposition (ALD) is a thin film deposition process renowned for its ability to produce layers with unrivaled control of thickness and composition, conformability to extreme three-dimensional structures, and versatility in the materials it can produce. These range from multi-component compounds to elemental metals and structures with compositions that can be adjusted over the thickness of the film. It has expanded from a small-scale batch process to large scale production, also including continuous processing – known as spatial ALD. It has matured into an industrial technology essential for many areas of materials science and engineering from microelectronics to corrosion protection. Its attributes make it a key technology in studying new materials and structures over an enormous range of applications. This Special Issue contains six research articles and one review article that illustrate the breadth of these applications from energy storage in batteries or supercapacitors to catalysis via x-ray, UV, and visible optics.
Additive Manufacturing of Glass
Additive Manufacturing of Glass: From Science to Applications is a joint effort by the global glass 3D printing community, highlighting the current state of the art, its various applications, as well as its game-changing potential for a wide array of industries in the coming decades. The book starts with separate overviews of glass and additive manufacturing, gradually tying the two together to discuss topics such as melt-derived additive manufacturing of glass, sol-gel chemistry, direct ink deposition techniques, etching-based glass structuring, and slurry-based glass 3D printing. The book then concludes with various case studies and applications for 3D-printed glass, highlighting individual companies producing it and product applications such as bioactive glasses and micro-optics. - Outlines various techniques for additive manufacturing of glass - Includes case studies and applications, highlighting real-world use and commercial opportunities - Covers melt-derived, sol-gel chemistry, photochemical, multiphoton-based etching, and various other additive manufacturing techniques for producing glass
Smart Nanosystems for Biomedicine, Optoelectronics and Catalysis
Nowadays nanoscience and nanotechnologies provide us with many excellent examples of the unique solutions for the different technical problems and demands of human society. Smart stimuli-responsive nanosystems and nanomaterials are used in many fields such as medicine, biomedical, biotechnology, agriculture, environmental pollution control, cosmetics, optics, health, food, energy, textiles, automotive, communication technologies, agriculture, and electronics. The book “Smart Nanosystems for Biomedicine, Optoelectronics and Catalysis” describes the modern trends in nanoscience and nanotechnology for creation of smart hybrid nanosystems combining the inorganic nano-objects with organic, bi...
Ashes and Granite
Examines the wartime destruction and post-war rebuilding of three prominent sites in Madrid, Bilbao and Barcelona in the Spanish Civil War and its aftermath. This title reveals aspects of the Spanish Civil War and the evolution of the Franco regime from an original and fruitful angle.
Modelling Nature-based Solutions
This book will help decision makers model nature-based solutions to the complex problem of sustainable development, locally and globally.
Nucleation and Growth in Applied Materials
Nucleation and Growth in Applied Materials covers fundamental aspects of thermodynamics and kinetics, nucleation and growth phenomena occurring during materials processing and synthesis in engineering of materials. Theoretical and practical approaches used to identify and quantify nucleation are analyzed. These approaches can be used to explain the relationship of the physical properties of the material with nucleation and growth processes. Sections cover modern methods such as SEM, TEM, EBSD microtexture, X-ray macrotexture and modeling and simulation (Monte Carlo, Molecular dynamic simulation, machine learning, etc.). Based on these observations, their applications in engineering materials...
Advanced Additive Manufacturing
Additive manufacturing (AM) is now being used to produce series components for the most demanding applications. It is a disruptive, if not revolutionary, manufacturing technology. The biggest advantage of this technology is its capacity to make parts with any free form, thus paving the way for free and complex part design. Components and integrated structures with complex designs that would not have been possible just a few years ago can now be made according to various requirements. The net-shape manufacturing capacity of AM allows a considerable saving of materials, conventional thermomechanical processing, and machining processes, making it an environmentally friendly manufacturing technology. This book includes two sections that cover new approaches in AM for biomedical applications and advanced technological solutions.
Drone
Drone warfare described from the perspectives of drone operators, victims of drone attacks, anti-drone activists, international law, military thinkers, and others. "[A] thoughtful examination of the dilemmas this new weapon poses." —Foreign Affairs Drones are changing the conduct of war. Deployed at presidential discretion, they can be used in regular war zones or to kill people in such countries as Yemen and Somalia, where the United States is not officially at war. Advocates say that drones are more precise than conventional bombers, allowing warfare with minimal civilian deaths while keeping American pilots out of harm's way. Critics say that drones are cowardly and that they often kill...
