This book is a comprehensive guide to both the fundamentals of thermal sensors and their advanced functions. Key topics include sensor materials, CMOS-compatible sensors, measurement capabilities, thermal management and manufacturing processes. The introductory chapter covers the basic principles of thermal sensors from the essentials of heat transfer to smart wireless sensors. Later chapters illustrate the wide range of thermal sensor uses, from microprocessor thermal sensing to energy converter applications. Modeling and simulation techniques are used to explain the future direction of the field. Designed for researchers and practitioners working with wireless sensors and thermal management, Thermal Sensors: Principles and Applications for Semiconductor Industries is a valuable reference to the benefits and challenges these sensors offer. Advanced-level students studying mechanical or electrical engineering and networks will also find the content useful.

As the broad challenges around energy and the environment have become the focus of much research, scientists and experts have dedicated their efforts to developing more active and selective catalytic systems for key chemical transformations. For many decades environmentally viable protocols for the synthesis of fine chemicals have been the crux of academic and industrial research. Heterogeneous Catalysis in Organic Transformations serves as an overview of this work, providing a complete description of role of heterogeneous catalysis in organic transformations and offering a review of the current and near future technologies and applications. Discusses the fundamentals of catalysis and compares the advantages and disadvantages of different types of catalyst systems Examines oxide nanoparticles and noble metal nanoparticles Consider organometallic compounds, solid-supported catalysts, and mesoporous materials Describes recent advances in metal-based heterogeneous catalysts and new reactions with possible mechanistic pathways Providing a comprehensive review of heterogeneous catalysis from the basics through recent advances, this book will be of keen interest to undergraduates, graduates, and researchers in chemistry, chemical engineering, and associated fields.

"The overall strength of this volume is its emphasis on practical considerations that an instructor is likely to encounter in creating a distance course. . . . particularly strong in presenting easily understood principles of good practice for those who must plan and implement distance learning."
--EVALUATION & PROGRAM PLANNING

What delivery methods are available to make education accessible to a wide variety of potential learners? What are their strengths and weaknesses? How can instructors create effective learning environments in distance courses? What support from administrators and staff is essential? What guidelines are used by accrediting agencies to assure program quality? This highly readable book by three experienced faculty members answers these questions and more. Both theoretical and practical, the book presents proven principles and research-based advice. Drawing upon their experience with a variety of delivery modes, the authors provide readers with tips they can use in designing, implementing, and evaluating distance courses and programs. Instructors and administrators alike will find much valuable assistance, including:

• A wealth of examples and strategies based on field-tested models, student preferences, and the authors? own extensive experiences
• Comprehensive coverage that addresses available delivery options, factors to consider when selecting a delivery mode, designing a syllabus for a distance course, fostering student learning and development, and providing student support services
• Concrete and practical approaches for assessing student learning, conducting course and program evaluation, and addressing accreditation guidelines
• Summary tips and references to web sites that conclude each chapter provide convenient summaries for readers and guide them to additional resources
• A companion web site that illustrates the text?s coverage with concrete examples

Drawing upon the rich details provided by the authors, faculty and administrators will be able to meet the challenge of developing and evaluating successful distance learning courses and programs. 

Ten years ago, D.M. Rowe introduced the bestselling CRC Handbook of Thermoelectrics to wide acclaim. Since then, increasing environmental concerns, desire for long-life electrical power sources, and continued progress in miniaturization of electronics has led to a substantial increase in research activity involving thermoelectrics. Reflecting the latest trends and developments, the Thermoelectrics Handbook: Macro to Nano is an extension of the earlier work and covers the entire range of thermoelectrics disciplines. Serving as a convenient reference as well as a thorough introduction to thermoelectrics, this book includes contributions from 99 leading authorities from around the world. Its coverage spans from general principles and theoretical concepts to material preparation and measurements; thermoelectric materials; thermoelements, modules, and devices; and thermoelectric systems and applications. Reflecting the enormous impact of nanotechnology on the field-as the thermoelectric properties of nanostructured materials far surpass the performance of conventional materials-each section progresses systematically from macro-scale to micro/nano-scale topics. In addition, the book contains an appendix listing major manufacturers and suppliers of thermoelectric modules. There is no longer any need to spend hours plodding through the journal literature for information. The Thermoelectrics Handbook: Macro to Nano offers a timely, comprehensive treatment of all areas of thermoelectrics in a single, unified reference.

This book is a comprehensive guide to both the fundamentals of thermal sensors and their advanced functions. Key topics include sensor materials, CMOS-compatible sensors, measurement capabilities, thermal management and manufacturing processes. The introductory chapter covers the basic principles of thermal sensors from the essentials of heat transfer to smart wireless sensors. Later chapters illustrate the wide range of thermal sensor uses, from microprocessor thermal sensing to energy converter applications. Modeling and simulation techniques are used to explain the future direction of the field. Designed for researchers and practitioners working with wireless sensors and thermal management, Thermal Sensors: Principles and Applications for Semiconductor Industries is a valuable reference to the benefits and challenges these sensors offer. Advanced-level students studying mechanical or electrical engineering and networks will also find the content useful.

Green Chemistry Approaches to Environmental Sustainability: Status, Challenges and Prospective provides a comprehensive and complete overview of the emerging discipline of green chemistry and fundamental chemical principles. The book bridges the gap between research and industry by offering a systematic overview of current available sustainable materials and related information on new materials' suitability and potential for given projects. Along the way, the book examines natural and biodegradable materials while also presenting materials with multifunctional properties. Topics addressed in this book will be major accomplishments for sustainable developments in biofuels, renewable energies, and in the remediation of pollutants in water, air and soil.

"The overall strength of this volume is its emphasis on practical considerations that an instructor is likely to encounter in creating a distance course. . . . particularly strong in presenting easily understood principles of good practice for those who must plan and implement distance learning."
--EVALUATION & PROGRAM PLANNING

What delivery methods are available to make education accessible to a wide variety of potential learners? What are their strengths and weaknesses? How can instructors create effective learning environments in distance courses? What support from administrators and staff is essential? What guidelines are used by accrediting agencies to assure program quality? This highly readable book by three experienced faculty members answers these questions and more. Both theoretical and practical, the book presents proven principles and research-based advice. Drawing upon their experience with a variety of delivery modes, the authors provide readers with tips they can use in designing, implementing, and evaluating distance courses and programs. Instructors and administrators alike will find much valuable assistance, including:

• A wealth of examples and strategies based on field-tested models, student preferences, and the authors? own extensive experiences
• Comprehensive coverage that addresses available delivery options, factors to consider when selecting a delivery mode, designing a syllabus for a distance course, fostering student learning and development, and providing student support services
• Concrete and practical approaches for assessing student learning, conducting course and program evaluation, and addressing accreditation guidelines
• Summary tips and references to web sites that conclude each chapter provide convenient summaries for readers and guide them to additional resources
• A companion web site that illustrates the text?s coverage with concrete examples

Drawing upon the rich details provided by the authors, faculty and administrators will be able to meet the challenge of developing and evaluating successful distance learning courses and programs.