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This compact handbook describes all the important methods of synthesis employed today for synthesizing inorganic materials. Some features: * Focuses on modern inorganic materials with applications in nanotechnology, energy materials, and sustainability * Synthesis is a crucial component of materials science and technology; this book provides a simple introduction as well as an updated description of methods * Written in a very simple style, providing references to the literatureto get details of the methods of preparation when required

A Step-by-step guide to the synthesis and characterization of metal-polymer nanocomposites Polymer nanocomposites, polymers that are reinforced with nano-sized particles, provide enhanced mechanical, thermal, electrical, and barrier properties. Continued research and development of new polymer nanocomposites promises to provide enhanced materials to a broad range of industries, such as plastics, aerospace, automotive, electronics, packaging, and biomedical devices. Structured as a practical laboratory manual, this book enables readers to expertly synthesize and characterize metal-polymer nanocomposites by clearly setting forth the principles and techniques. Nanocomposites: In Situ Synthesis of Polymer-Embedded Nanostructures features contributions from an international team of materials science and nanotechnology experts. Chapters reflect the authors' critical review of the literature as well as their own laboratory experience working with polymer nanocomposites. The book begins with a detailed introduction to the science, properties, and applications of metal-polymer nanocomposites. Next, it covers such topics as: * Morphological and topological concepts * Phase separation and nanoparticle aggregation * Methods for the synthesis of nanocomposites * Morphological control * Characterization techniques and data analysis methods * Toxicity considerations High-resolution images of metal nanoparticles, created by transmission electron microscopy, are provided throughout the book. There are also plenty of process schemes and detailed drawings, helping readers better understand how to synthesize, characterize, and use these composite materials. A bibliography at the end of each chapter provides a gateway to original research papers and reviews in the field. With its focus on the practical steps of synthesis and characterization, Nanocomposites: In Situ Synthesis of Polymer-Embedded Nanostructures is recommended for both students and practitioners in nanotechnology, polymer science, and materials science and engineering.

In 1969, Princeton physicist Gerard O'Neill began looking outward to space colonies as the new frontier for humanity's expansion. A decade later, Eric Drexler turned his attention to the molecular world as the place where society's future needs could be met using self-replicating nanoscale machines. These modern utopians predicted that their technologies could transform society as humans mastered the ability to create new worlds, undertook atomic-scale engineering, and, if truly successful, overcame their own biological limits. This text tells the story of how these scientists and the communities they fostered imagined, designed, and popularized speculative technologies such as space colonies and nanotechnologies.

This book addresses the interconnections and tensions between technological development, the social benefits and risks of new technology, and the changing political economy of a global world system as they apply to the emerging field of nanotechnologies. The basic premise, developed throughout the volume, is that nanotechnologies have an undertheorized and often invisible social life that begins with their constructed origins and propels them around the globe, across multiple localities, institutions and collaborations, through diverse industries, research labs, and government agencies and into the public sphere. The volume situates nano innovation and development as a modernist science and technology project in a tense and unstable relationship with a fractured, postmodern social world. The book is unique in incorporating and integrating studies of innovation systems along with a focus on the risks and consequences of a globally significant set of emerging technologies. It does this by examining the social and political conditions of their creation, production, emergence, and reception.

This book explains the fundamentals of nanoimprinting in terms of materials, processes, and machines. The applications of nanoimprinting in optics, biology, energy, and electronics are also described. As many practical examples of nanoimprinting as possible are included in the book.

Research on dendrimers has exploded in the last fifteen years, moving from the establishment of synthetic methodologies towards sophisticated applications. Designing Dendrimers covers both fundamental and applicative aspects of dendrimer research.

Chemistry of Carbon Nanostructures aims to present the current state-of-the-art synthesis and application of carbon materials like nano diamonds, ribbons and graphene-like structures in science and engineering.

The aim of the study was to assess the efficacy of three methods of enamel remineralization on initial approximal caries: (1) a nano-hydroxyapatite gel, (2) gaseous ozone therapy, (3) combination of a nano-hydroxyapatite gel and ozone. Patients (n = 92, age 20–30 years) with initial approximal enamel lesions on premolar and molar teeth (n = 546) were randomly allocated to three groups subjected to a 6-months treatment: Group I: domestic nano-hydroxyapatite remineralizing gel, group II: in-office ozone therapy, group III: both domestic remineralizing gel and ozone therapy. Caries lesions were assessed on bitewing radiographs at baseline, after 1 year and after 2 years. At one-year follow-up, the smallest rate of lesions with remineralisation (36.5%) was found in group I, and the highest (69.3%)—in group III. In group III a significant remineralisation was noticed in after 1 year and then a demineralisation after 2 years. Thus nano-hydroxyapatite gel and ozone therapy exert some capacities to remineralize approximal enamel and dentine subsurface lesions of premolar and molar teeth. Moreover, the combination of both methods produces the best effect compared to nano-hydroxyapatite or ozone therapy applied alone. However, the treatment should be continued for a long time in order to achieve nonrestorative recovery of caries.