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The first volume in an exciting new series, Annual Review of Nano Research, this formidable collection of review articles sees renowned contributors from eight different countries tackle the most recent advances in nanofabrication, nanomaterials and nanostructures.The broad coverage of topics in nanotechnology and nanoscience also includes a special focus on the hot topic of biomedical applications of nanomaterials. The important names contributing to the volume include: M R Bockstaller (USA), L Duclaux (France), S Forster (Germany), W Fritzsche (Germany), L Jiang (China), C Lopez (Spain), W J Parak (Germany), B Samori (Italy), U S Schubert (The Netherlands), S Shinkai (Japan), A Stein (USA), S M Hou (China), and Y N Xia (USA).The volume serves both as a handy reference for experts active in the field and as an excellent introduction to scientists whose expertise lies elsewhere but who are interested in learning about this cutting-edge research area.
This landmark annual review has provided nearly three decades of knowledge, insight, and research on topics critical to nurses everywhere. It critically examines the full gamut of literature on key topics in nursing practice, including nursing theory, care delivery, nursing education, and the professional aspects of nursing. Annual Review of Nursing Research has brought together internationally recognized experts in the fields of nursing, and continues to deliver the highest standards of content and authoritative reviews of research for students, researchers, and clinicians. Past volumes of ARNR have addressed critical issues such as: pediatric care, geriatrics, alcohol abuse, patient safety, rural nursing, tobacco use, and more. Key topics in this edition include: Review of research related to regulation Review of global nursing workforce issues State policy and research initiatives focused on improving nursing workforce Horizontal violence and bullying Staffing methodology in nursing Future of the workforce
Mechanical and thermal properties are reviewed and electrical and magnetic properties are emphasized. Basics of symmetry and internal structure of crystals and the main properties of metals, dielectrics, semiconductors, and magnetic materials are discussed. The theory and modern experimental data are presented, as well as the specifications of materials that are necessary for practical application in electronics. The modern state of research in nanophysics of metals, magnetic materials, dielectrics and semiconductors is taken into account, with particular attention to the influence of structure on the physical properties of nano-materials. The book uses simplified mathematical treatment of theories, while emphasis is placed on the basic concepts of physical phenomena in electronic materials. Most chapters are devoted to the advanced scientific and technological problems of electronic materials; in addition, some new insights into theoretical facts relevant to technical devices are presented. Electronic Materials is an essential reference for newcomers to the field of electronics, providing a fundamental understanding of important basic and advanced concepts in electronic materials science. Provides important overview of the fundamentals of electronic materials properties significant for device applications along with advanced and applied concepts essential to those working in the field of electronics Takes a simplified and mathematical approach to theories essential to the understanding of electronic materials and summarizes important takeaways at the end of each chapter Interweaves modern experimental data and research in topics such as nanophysics, nanomaterials and dielectrics
Materials science and engineering (MSE) contributes to our everyday lives by making possible technologies ranging from the automobiles we drive to the lasers our physicians use. Materials Science and Engineering for the 1990s charts the impact of MSE on the private and public sectors and identifies the research that must be conducted to help America remain competitive in the world arena. The authors discuss what current and future resources would be needed to conduct this research, as well as the role that industry, the federal government, and universities should play in this endeavor.
Annual Review of Nursing Research has provided nearly four decades of knowledge, insight, and research on topics critical to nurses everywhere. Its purpose is to critically examine the full gamut of literature on key topics in nursing practice, including nursing theory, care delivery, nursing education, and the professional aspects of nursing. This landmark annual review brings together internationally recognized experts in the fields of nursing and delivers the highest standards of content and authoritative reviews of research for students, researchers, and clinicians. In today's climate, healthcare simulation is more important than ever. Creating consistent, leveled experiences through high-quality simulation allows students and practitioners the opportunity to learn in a safe and immersive environment. This 39th volume of Annual Review of Nursing Research addresses the current state of healthcare simulation in both academic and professional settings. Articles are written by noted experts in the field and discuss extended reality, new technologies, briefing, outcome evaluation, and professional development. Key Topics: Discusses simulation use in undergraduate and graduate education Features a new debriefing tool on interprofessional simulation Addresses current considerations for effective operations in simulation Highlights the use of virtual and augmented realities, as well as 3D printing
Previously known as the Annual Review of Materials Science; the new title reflects the interdisciplinary approach now common to the field. The theme of this volume is biomaterials, to which Stupp (Northwestern U.) provides an introduction. Individual articles are devoted to non-viral gene delivery, biological response to materials, photoinitiated polymerization of biomaterials, phospholid strategies in biomineralization and biomaterials research, synthesis and design of superhard materials, the Staebler- Wronski effect in Si:H, thin film synthesis by energetic condensation, and epitaxial spinel ferrite thin films, among others. The contributors are specialists in institutions in France, Germany, Switzerland, Israel, and (mainly) the US. c. Book News Inc.
Building on the success of previous editions, this book continues to provide engineers with a strong understanding of the three primary types of materials and composites, as well as the relationships that exist between the structural elements of materials and their properties. The relationships among processing, structure, properties, and performance components for steels, glass-ceramics, polymer fibers, and silicon semiconductors are explored throughout the chapters. The discussion of the construction of crystallographic directions in hexagonal unit cells is expanded. At the end of each chapter, engineers will also find revised summaries and new equation summaries to reexamine key concepts.