This book covers many advances in the subjects of nano-optics and nano photonics. The author describes the principle and technical schematics of common methods for breaking through the optical diffraction limit and focuses on realizing optical super-resolution with nonlinear effects of thin film materials. The applications of nonlinear optical super-resolution effects in nano-data storage, nanolithography, and nano-imaging are also presented. This book is useful to graduate students majoring in optics and nano science and also serves as a reference book for academic researchers, engineers, technical professionals in the fields of super-resolution optics and laser techniques, nano-optics and nano photonics, nano-data storage, nano imaging, micro/nanofabrication and nanolithography and nonlinear optics.

The purpose of this book is to introduce the concept of Transformational Coaching and to educate professional business coaches or mangers-as-coaches in their organizations on the influential and relevant elements of Transformational Coaching for Effective Leadership designed for coaching individuals, teams, businesses or applying such elements in any levels of Organization Development intervention, either toward individuals, teams, groups, departments, or the organization itself. Given the power and long-lasting influence of transformational coaching, it also could be beneficial to professionals in fields of Human Resources Development (HRD), Workplace Learning and Performance (WLP), Human Performance Enhancement (HPE) and overall, in the domain of Workforce Education and Development (WFED). This book will start by reviewing the background and presence of Transformational Coaching in businesses and organizations, along with the general concepts, perceptions, and understanding of coaching. This book will examine the uses of Transformational Coaching in management and leadership development, human resources development for talent development and retention, and for developing managerial coaching skills and competencies. Additionally, this book will review the presence and use of Transformational Coaching concepts, theories, and practices, including transformational learning for HR and HRD professionals to influence the workforce's attitude, behavior, and productivity. This book: * Builds individuals' self-awareness, self-realization, and self-confidence. * Offers personal and professional development. * Teaches the concept of transformational learning and its use in transformational coaching. * Teaches rituals, skills, and strategies for individuals and teams to increase their productivity. * Offers an approach to building healthy and strong relationships with oneself and others. * Includes change management strategies for redirecting poor job performance. * Helps readers implement effective transformational coaching practices by offering many tools such as forms, checklists, and worksheets.

The purpose of this book is to introduce the concept of Transformational Coaching and to educate professional business coaches or mangers-as-coaches in their organizations on the influential and relevant elements of Transformational Coaching for Effective Leadership designed for coaching individuals, teams, businesses or applying such elements in any levels of Organization Development intervention, either toward individuals, teams, groups, departments, or the organization itself. Given the power and long-lasting influence of transformational coaching, it also could be beneficial to professionals in fields of Human Resources Development (HRD), Workplace Learning and Performance (WLP), Human Performance Enhancement (HPE) and overall, in the domain of Workforce Education and Development (WFED). This book will start by reviewing the background and presence of Transformational Coaching in businesses and organizations, along with the general concepts, perceptions, and understanding of coaching. This book will examine the uses of Transformational Coaching in management and leadership development, human resources development for talent development and retention, and for developing managerial coaching skills and competencies. Additionally, this book will review the presence and use of Transformational Coaching concepts, theories, and practices, including transformational learning for HR and HRD professionals to influence the workforce's attitude, behavior, and productivity. This book: * Builds individuals' self-awareness, self-realization, and self-confidence. * Offers personal and professional development. * Teaches the concept of transformational learning and its use in transformational coaching. * Teaches rituals, skills, and strategies for individuals and teams to increase their productivity. * Offers an approach to building healthy and strong relationships with oneself and others. * Includes change management strategies for redirecting poor job performance. * Helps readers implement effective transformational coaching practices by offering many tools such as forms, checklists, and worksheets.

Innovation is added value to a known process. Bioprinting: Techniques and Risks for Regenerative Medicine aims to stimulate a scientifically grounded, interdisciplinary, multiscale debate and exchange of ideas using the techniques described in the book. 3D printing and additive manufacturing evolved from within the field of Cell Biology will have the ability to recreate cells queried from large amounts of phenotypic and molecular data. Stem Cell biologists, biotechnologists and material engineers, as well as graduate students will greatly benefit from the practical knowledge and case examples provided throughout this book.

This book highlights some of the latest advances in nanotechnology and nanomaterials from leading researchers in Ukraine, Europe, and beyond. It features contributions from participants in the 6th International Science and Practice Conference Nanotechnology and Nanomaterials (NANO2018) in Kiev, Ukraine on August 27-30, 2018 organized by the Institute of Physics of the National Academy of Sciences of Ukraine, University of Tartu (Estonia), University of Turin (Italy), and Pierre and Marie Curie University (France). Internationally recognized experts from a wide range of universities and research institutions share their knowledge and key results on nanooptics, energy storage and biomedical applications. This book's companion volume also addresses topics such as materials properties, behavior, and synthesis.

This book highlights the main advances in fiber electronics, like fiber-shaped solar cells, batteries, supercapacitors, sensors, light-emitting devices, memristors and communication devices from the standpoints of material synthesis, structure design and property enhancement. It focuses on revealing the separation and transport mechanisms of charges, establishing transport equations for electrons and ions, and emphasizing integration methods in fiber devices. In closing, it reviews emerging applications based on fiber devices that could accelerate their large-scale production in the near future. Given its scope, the book offers a valuable resource for scientists, engineers, graduate students and undergraduate students in a wide variety of fields such as advanced materials, energy, electrochemistry, applied physics, nanoscience and nanotechnology, polymer science and engineering and biomedical science. It also benefits many non-specialist industrialists who are working to promote new technologies.

This book discusses the tribological, rheological and optical properties of liquid-crystal nanomaterials as well as lubricant media. It also describes the formation of liquid-crystal materials and the application of cholesteric liquid-crystal compounds in technical friction units and in human and animal joints. Further, it shows the connection between the tribological and other physical properties of liquid-crystal cholesterol compounds and develops a lubricity conceptual model of cholesteric-nematic, liquid-crystalline nanostructures on the basis of physical and energetic interpretations. This general model is valid for all surfaces and friction pairs, including biopolymers, and could lead to applications of cholesteric liquid-crystalline nanomaterials in different friction units and tribosystems as well as in the treatment of joint diseases.

Product design is becoming increasingly challenging as product complexity increases dramatically with the advent of autonomous control and the need to achieve zero emissions. Companies continue to have poor product launches with significant numbers of recall campaigns and high after-sales warranties. It is important that potential product failures are identified and fixed during the design of a product. Failure modes found late after the design has matured are normally easy to find with some being identified by the customer but are often difficult and expensive to fix since modifying one part will often have a knock-on effect on other parts causing other problems. Discovering failure modes early in the design process is often difficult requiring rigorous and comprehensive analysis but once found such failure modes are usually easy and cheap to fix. This book presents an approach to product design based on Failure Mode Avoidance that utilizes a series of strongly interrelated engineering tools and interpersonal skills that can be used to discover failure modes early in the design process. The tools can be used across engineering disciplines. Despite engineering being largely a team activity, it is often the case that little attention is paid to the team process after the team membership has been identified, with membership normally being based on technical expertise. In addition to technical expertise, an effective engineering team requires individual engineers to work together efficiently. Good leadership is also required with the leader able to both manage change and encourage individual team members to work to the best of their ability. The book interweaves technical skills, team skills, and team leadership in a way that reflects their real-life interrelationship. The book tells the fictional story of a small engineering team and its leader as they implement the skills introduced in the book and follows their experiences reflecting individual difficulties, enthusiasm, humor, and skepticism in applying the methodologies and tools for the first time. In addition, the story tells of team members' interactions with their management and peers within a company that, having been very successful, finds itself in financial difficulties. It promotes constructivist learning through the reader empathizing with the characters in the book. These characters ask questions that are typical of those that learners will ask about the subject matter. Learning reinforcement is also integrated into the storyline as a natural and unobtrusive feature. The book is intended to be read like a novel from cover to cover with a storyline that motivates the reader to read on. While including in-depth technical examples the book is not intended as a seminal text on Failure Mode Avoidance or team skills but is intended to give the reader an understanding such that they are motivated to learn more. Having read the book, it can be treated more typically as a textbook by returning to some of the technical detail or looking to further reading such as that identified in the book.

Product design is becoming increasingly challenging as product complexity increases dramatically with the advent of autonomous control and the need to achieve zero emissions. Companies continue to have poor product launches with significant numbers of recall campaigns and high after-sales warranties. It is important that potential product failures are identified and fixed during the design of a product. Failure modes found late after the design has matured are normally easy to find with some being identified by the customer but are often difficult and expensive to fix since modifying one part will often have a knock-on effect on other parts causing other problems. Discovering failure modes early in the design process is often difficult requiring rigorous and comprehensive analysis but once found such failure modes are usually easy and cheap to fix. This book presents an approach to product design based on Failure Mode Avoidance that utilizes a series of strongly interrelated engineering tools and interpersonal skills that can be used to discover failure modes early in the design process. The tools can be used across engineering disciplines. Despite engineering being largely a team activity, it is often the case that little attention is paid to the team process after the team membership has been identified, with membership normally being based on technical expertise. In addition to technical expertise, an effective engineering team requires individual engineers to work together efficiently. Good leadership is also required with the leader able to both manage change and encourage individual team members to work to the best of their ability. The book interweaves technical skills, team skills, and team leadership in a way that reflects their real-life interrelationship. The book tells the fictional story of a small engineering team and its leader as they implement the skills introduced in the book and follows their experiences reflecting individual difficulties, enthusiasm, humor, and skepticism in applying the methodologies and tools for the first time. In addition, the story tells of team members' interactions with their management and peers within a company that, having been very successful, finds itself in financial difficulties. It promotes constructivist learning through the reader empathizing with the characters in the book. These characters ask questions that are typical of those that learners will ask about the subject matter. Learning reinforcement is also integrated into the storyline as a natural and unobtrusive feature. The book is intended to be read like a novel from cover to cover with a storyline that motivates the reader to read on. While including in-depth technical examples the book is not intended as a seminal text on Failure Mode Avoidance or team skills but is intended to give the reader an understanding such that they are motivated to learn more. Having read the book, it can be treated more typically as a textbook by returning to some of the technical detail or looking to further reading such as that identified in the book.

Materials and manufacturing techniques are a few of the vital processes in production industries. Most of the materials processing and manufacturing techniques currently used in industries are a major cause of environmental pollution and are hence unsustainable. This book provides in-depth knowledge about challenges faced during the processing of advanced materials and discusses possible ways to achieve sustainability in manufacturing. This book: Covers advances in cryogenic machining, optimization, and economical and energy assessment of machining; Provides case studies and numerical design with analysis using computational fluid dynamics of minimum quantity lubrication mist droplets; Reviews metalworking fluids, laser micro-texturing, materials and manufacturing in sustainability, biofuels additives, nano-materials, and additive manufacturing of waste plastic; Explores the use of artificial intelligence and machine learning-based manufacturing techniques; and Covers the latest challenges and future trends in sustainable manufacturing. Sustainable Materials and Manufacturing Technologies is primarily written for senior undergraduate and graduate students, as well as researchers in mechanical, manufacturing, industrial, and production engineering, and material science.

The demand and supply chain planning process for manufacturers, distributors, and retailers has evolved over the years. It has gone from a disjointed, unconnected, slow, inaccurate, fairly manual set of processes to an integrated, timely process enabled by the use and coordination of highly trained people, lean, agile processes, and cutting-edge technology. To make this set of processes work effectively, one has to fully understand and appreciate that there is an "art and science" aspect to the process which can take years of education and experience to fully understand. Essentially, this book will offer the reader a chance to fully understand the interconnected set of processes in a "best-practice" application. Furthermore, examples and cases will be used to illustrate its practical application in today's complex global supply chain. In addition, readers will understand and be able to apply and articulate the concepts, tools, and techniques used in the efficient supply of goods and services in today's changing global economy. It will help them to learn how businesses, through their supply chain, work both internally and with their trading partners - both upstream and downstream - to build strong relationships and integrate demand and supply planning activities across the supply chain to deliver customer value efficiently and effectively. They will learn about the tools and technologies enabling integration, and the critical drivers and key metrics of supply chain performance.

This book is open access under a CC BY 4.0 license.This book presents results relevant in the manufacturing research field, that are mainly aimed at closing the gap between the academic investigation and the industrial application, in collaboration with manufacturing companies. Several hardware and software prototypes represent the key outcome of the scientific contributions that can be grouped into five main areas, representing different perspectives of the factory domain:1) Evolutionary and reconfigurable factories to cope with dynamic production contexts characterized by evolving demand and technologies, products and processes.2) Factories for sustainable production, asking for energy efficiency, low environmental impact products and processes, new de-production logics, sustainable logistics.3) Factories for the People who need new kinds of interactions between production processes, machines, and human beings to offer a more comfortable and stimulating working environment.4) Factories for customized products that will be more and more tailored to the final user's needs and sold at cost-effective prices.5) High performance factories to yield the due production while minimizing the inefficiencies caused by failures, management problems, maintenance.This books is primarily targeted to academic researchers and industrial practitioners in the manufacturing domain.

Currently, the challenge for manufacturing organizations is how to achieve their expected profit by continuously improving productivity or reducing costs. Manufacturing organizations have been using different improvement approaches to achieving cost reduction and productivity improvement for years by eliminating various losses and waste structures, such as excess inventory, excessive workforce, excessive capacity, excessive utility consumption, and so on. But is the problem solved? Unfortunately, no! Often manufacturing companies focus on maximizing the flow and meeting customer needs but forget their real aim - to make a profit for their stakeholders. Too many organizations meet customer expectations by seeking to continuously synchronize the flow to market demand but forget to check that they are doing it profitably enough to ensure business continuity and prosperity. When the financial results show that they are not so profitable, it is already too late. Moreover, the strategic direction of systematic improvements according to the sales trend - depending on the current degree of production capacity utilization and its dynamic effects on cost structures - is deficient in many manufacturing companies. So, would the failure of strategic and profitable systematic improvements be an option? Of course not! If the ultimate goal of the organization is to create target profit for stakeholders, then the behavior and strategic systematic improvements must be directed to those scenarios, strategies, tasks, problems, and "production levers" that are best based on creating the target profit. That's what Strategic Kaizen thinking does - the simultaneous and consistent achievement of systematic operational and financial improvements in a strategic and operational manner. It achieves both synchronous operations at market demand by fulfilling takt time and profitable operations in accordance with profit demand by fulfilling takt profit. In short, the Strategic Kaizen mission is striving for the fulfillment of the ideal state of operations called synchronous profitable operations. In this book, the author, while presenting in detail the seven processes of Strategic Kaizen methodology, exposes the answer to historically incomplete thinking of productivity improvements for target profitability. The uniqueness of the book is reinforced by the detailed presentation of the successful application of the Strategic Kaizen thinking over the years in two multinational manufacturing organizations operating in highly competitive markets, addressing the synchronous profitable operations for both the sales increase scenario and the sales decrease scenario. Moreover, it presents examples of the practical application of the "white-collar" Strategic Kaizen. Essentially, by adopting the Strategic Kaizen methodology presented in detail in this book to consistently achieve the ideal state of a manufacturing organization, organizations will enter a new paradigm of thinking of strategic improvements - Strategic Kaizen thinking - to meet annual and multiannual target profits in a unique and effective way that operates according to its own strategic and operational management system.

Survival and thriving in today's business environment require companies to continuously strive for operational excellence at all levels of the organization. Simply working to maintain existing operations is not an adequate or sustainable business strategy, especially when competing in a global market. To remain relevant, companies must adopt a process control and continuous improvement mentality as an integral part of their daily work activities. These two operational disciplines form the foundation and stepping stones for manufacturing excellence. Processes must be stable, capable, and controlled as a prerequisite for sustainable improvement. Sustainable improvements must be strategic, continuous, and focused on process optimization. Modern-day manufacturing is rapidly changing in the face of technological, geopolitical, social, and environmental developments. These challenges are altering the way we think and act to transform raw materials into finished goods. Meeting these challenges requires particular attention to how we develop and engage people and apply technology for long-term sustainability and competitive advantage. This book takes you on a journey to explore the fundamental elements, management practices, improvement methods, and future direction of shop floor management. Part 1 of this five-part manuscript considers workplace culture, organizational structure, operational discipline, and employee accountability as the foundation for a robust manufacturing system. Part 2 studies the impact of process standardization, data analytics, information sharing, communication, and people on daily shop floor management. Once the management system has been adequately described, Part 3 concentrates on its effective execution, monitoring, and control with a deep look into the people, methods, machines, materials, and environment that make it possible. Like every good manufacturing text, efficiency and productivity are key topics. That's why Part 4 explores various methods, tools, and techniques associated with product and process development, productivity improvement, agile methods, shop floor optimization, and manufacturing excellence. The final section, Part 5, shifts focus to emerging technologies, engaging the reader to contemplate technology's impact on the digital transformation of the manufacturing industry.

Survival and thriving in today's business environment require companies to continuously strive for operational excellence at all levels of the organization. Simply working to maintain existing operations is not an adequate or sustainable business strategy, especially when competing in a global market. To remain relevant, companies must adopt a process control and continuous improvement mentality as an integral part of their daily work activities. These two operational disciplines form the foundation and stepping stones for manufacturing excellence. Processes must be stable, capable, and controlled as a prerequisite for sustainable improvement. Sustainable improvements must be strategic, continuous, and focused on process optimization. Modern-day manufacturing is rapidly changing in the face of technological, geopolitical, social, and environmental developments. These challenges are altering the way we think and act to transform raw materials into finished goods. Meeting these challenges requires particular attention to how we develop and engage people and apply technology for long-term sustainability and competitive advantage. This book takes you on a journey to explore the fundamental elements, management practices, improvement methods, and future direction of shop floor management. Part 1 of this five-part manuscript considers workplace culture, organizational structure, operational discipline, and employee accountability as the foundation for a robust manufacturing system. Part 2 studies the impact of process standardization, data analytics, information sharing, communication, and people on daily shop floor management. Once the management system has been adequately described, Part 3 concentrates on its effective execution, monitoring, and control with a deep look into the people, methods, machines, materials, and environment that make it possible. Like every good manufacturing text, efficiency and productivity are key topics. That's why Part 4 explores various methods, tools, and techniques associated with product and process development, productivity improvement, agile methods, shop floor optimization, and manufacturing excellence. The final section, Part 5, shifts focus to emerging technologies, engaging the reader to contemplate technology's impact on the digital transformation of the manufacturing industry.

Polycrystalline SiGe has emerged as a promising MEMS (Microelectromechanical Systems) structural material since it provides the desired mechanical properties at lower temperatures compared to poly-Si, allowing the direct post-processing on top of CMOS. This CMOS-MEMS monolithic integration can lead to more compact MEMS with improved performance. The potential of poly-SiGe for MEMS above-aluminum-backend CMOS integration has already been demonstrated. However, aggressive interconnect scaling has led to the replacement of the traditional aluminum metallization by copper (Cu) metallization, due to its lower resistivity and improved reliability. Poly-SiGe for MEMS-above-CMOS sensors demonstrates the compatibility of poly-SiGe with post-processing above the advanced CMOS technology nodes through the successful fabrication of an integrated poly-SiGe piezoresistive pressure sensor, directly fabricated above 0.13 m Cu-backend CMOS. Furthermore, this book presents the first detailed investigation on the influence of deposition conditions, germanium content and doping concentration on the electrical and piezoresistive properties of boron-doped poly-SiGe. The development of a CMOS-compatible process flow, with special attention to the sealing method, is also described. Piezoresistive pressure sensors with different areas and piezoresistor designs were fabricated and tested. Together with the piezoresistive pressure sensors, also functional capacitive pressure sensors were successfully fabricated on the same wafer, proving the versatility of poly-SiGe for MEMS sensor applications. Finally, a detailed analysis of the MEMS processing impact on the underlying CMOS circuit is also presented.

This book describes new trends in the nanoscience of isotopic materials science. Assuming a background in graduate condensed matter physics and covering the fundamental aspects of isotopic materials science from the very beginning, it equips readers to engage in high-level professional research in this area. The books main objective is to provide insight into the question of why solids are the way they are, either because of how their atoms are bonded with one another, because of defects in their structure, or because of how they are produced or processed. Accordingly, it explores the science of how atoms interact, connects the results to real materials properties, and demonstrates the engineering concepts that can be used to produce or improve semiconductors by design. In addition, it shows how the concepts discussed are applied in the laboratory. The book addresses the needs of researchers, graduate students and senior undergraduate students alike. Although primarily written for materials science audience, it will be equally useful to those teaching in electrical engineering, materials science or even chemical engineering or physics curricula. In order to maintain the focus on materials concepts, however, the book does not burden the reader with details of many of the derivations and equations nor does it delve into the details of electrical engineering topics.

This book provides a detailed instruction to virtually reproduce the processes of Additive Manufacturing on a computer. First, all mathematical equations needed to model these processes are presented. Due to their flexibility, meshfree methods represent optimal computational solution schemes to simulate Additive Manufacturing processes. On the other hand, these methods usually do not guarantee an accurate solution. For this reason, this monograph is dedicated in detail to the necessary criteria for computational solution schemes to provide accurate results. Several meshfree methods are examined with respect to these conditions. Two different 3D printing techniques are presented in detail. The results obtained from the simulation are investigated and compared with experimental data. This work is addressed to both scientists and professionals working in the field of development who are interested to learn the secrets behind meshfree methods or get into the modeling of Additive Manufacturing.

-- Only book written addressing the role of a Lean CFO. -- Explains how a Lean Management System integrated with a Lean Business Strategy drives financial success. -- In clear concise terms explains how & why Lean makes money for companies. -- Gives readers the logical reasons why a Lean Management System must replace a Management Accounting System. -- Answers the question "why do we need a Lean Management System?"

This book comprises a set of stories about being an engineer for many decades and the lessons the author learned from research and practice. These lessons focus on people and organizations, often enabled by technology. The settings range from airplanes, power plants, and communication networks to ecosystems that enable education, healthcare, and transportation. All of these settings are laced with behavioral and social phenomena that need to be understood and influenced. The author's work in these domains has often led to the question: "Well, why does it work like that?" He invariably sought to understand the bigger picture to find the sources of requirements, constraints, norms, and values. He wanted to understand what could be changed, albeit often with much effort to overcome resistance. He found that higher levels of an ecosystem often provide the resources and dictate the constraints imposed on lower levels. These prescriptions are not just commands. They also reflect values and cultural norms. Thus, the answers to the question were not just technical and economic. Often, the answers reflected eons of social and political priorities. The endeavors related in the book frequently involved addressing emerging realities rather than just the status quo. This book is an ongoing discovery of these bigger pictures. The stories and the lessons related in this book provide useful perspectives on change. The understanding of people and organizations that emerges from these lessons can help to enable transformative change. Fundamental change is an intensely human-centric endeavor, not just for the people and organizations aspiring to change, but also for the people helping them. You will meet many of these people in this book as the stories unfold. The genesis of this book originated in a decision made early in the author's career. He had developed a habit of asking at the end of each day, "What did I really accomplish today?" This was sometimes frustrating as he was not sure the day had yielded any significant accomplishments. One day it dawned on him that this was the wrong question - He needed to ask, "What did I learn today?" It is always possible to learn, most recently about public health and climate change. In planning this book, the author first thought in terms of accomplishments such as projects conducted, systems built, and articles and books published. He could not imagine this being interesting to readers. Then, it struck him - It is much more interesting to report on what he learned about people and organizations, including how he helped them accomplish their goals. This is a book of stories about how these lessons emerged. In planning this book, the author first thought in terms of accomplishments such as projects conducted, systems built, and articles and books published. He could not imagine this being interesting to readers. Then, it struck him - It is much more interesting to report on what he learned about people and organizations, including how he helped them accomplish their goals. This is a book of stories about how these lessons emerged.

This book comprises a set of stories about being an engineer for many decades and the lessons the author learned from research and practice. These lessons focus on people and organizations, often enabled by technology. The settings range from airplanes, power plants, and communication networks to ecosystems that enable education, healthcare, and transportation. All of these settings are laced with behavioral and social phenomena that need to be understood and influenced. The author's work in these domains has often led to the question: "Well, why does it work like that?" He invariably sought to understand the bigger picture to find the sources of requirements, constraints, norms, and values. He wanted to understand what could be changed, albeit often with much effort to overcome resistance. He found that higher levels of an ecosystem often provide the resources and dictate the constraints imposed on lower levels. These prescriptions are not just commands. They also reflect values and cultural norms. Thus, the answers to the question were not just technical and economic. Often, the answers reflected eons of social and political priorities. The endeavors related in the book frequently involved addressing emerging realities rather than just the status quo. This book is an ongoing discovery of these bigger pictures. The stories and the lessons related in this book provide useful perspectives on change. The understanding of people and organizations that emerges from these lessons can help to enable transformative change. Fundamental change is an intensely human-centric endeavor, not just for the people and organizations aspiring to change, but also for the people helping them. You will meet many of these people in this book as the stories unfold. The genesis of this book originated in a decision made early in the author's career. He had developed a habit of asking at the end of each day, "What did I really accomplish today?" This was sometimes frustrating as he was not sure the day had yielded any significant accomplishments. One day it dawned on him that this was the wrong question - He needed to ask, "What did I learn today?" It is always possible to learn, most recently about public health and climate change. In planning this book, the author first thought in terms of accomplishments such as projects conducted, systems built, and articles and books published. He could not imagine this being interesting to readers. Then, it struck him - It is much more interesting to report on what he learned about people and organizations, including how he helped them accomplish their goals. This is a book of stories about how these lessons emerged. In planning this book, the author first thought in terms of accomplishments such as projects conducted, systems built, and articles and books published. He could not imagine this being interesting to readers. Then, it struck him - It is much more interesting to report on what he learned about people and organizations, including how he helped them accomplish their goals. This is a book of stories about how these lessons emerged.

3D Bioprinting: Fundamentals, Principles and Applications provides the latest information on the fundamentals, principles, physics, and applications of 3D bioprinting. It contains descriptions of the various bioprinting processes and technologies used in additive biomanufacturing of tissue constructs, tissues, and organs using living cells. The increasing availability and decreasing costs of 3D printing technologies are driving its use to meet medical needs, and this book provides an overview of these technologies and their integration. Each chapter discusses current limitations on the relevant technology, giving future perspectives. Professor Ozbolat has pulled together expertise from the fields of bioprinting, tissue engineering, tissue fabrication, and 3D printing in his inclusive table of contents. Topics covered include raw materials, processes, machine technology, products, applications, and limitations. The information in this book will help bioengineers, tissue and manufacturing engineers, and medical doctors understand the features of each bioprinting process, as well as bioink and bioprinter types. In addition, the book presents tactics that can be used to select the appropriate process for a given application, such as tissue engineering and regenerative medicine, transplantation, clinics, or pharmaceutics.

Technology Innovation discusses the fundamental aspects of processes and structures of technology innovation. It offers a new perspective concerning fundamentals aspects not directly involved in the complex relations existing between technology and the socio-economic system. By considering technology and its innovation from a scientific point of view, the book presents a novel definition of technology as a set of physical, chemical, and biological phenomena, producing an effect exploitable for human purposes. Expanding on the general model of technology innovation by linking the model of technology, based on a structure of technological operations, with the models of the structures for technology innovation, based on organization of fluxes of knowledge and capitals, the book considers various technological processes and the stages of the innovation process. Offers a perspective on the evolution of technology in the frame of an industrial platform network Explains a novel definition of technology as a set of physical, chemical, and biological phenomena producing an effect exploitable for human purposes Discusses technology innovation as result of structures organizing fluxes of knowledge and capitals Provides a technology model simulating the functioning of technology with its optimization Presents a technology innovation model explaining the territorial technology innovation process The book is intended for academics, graduate students, technology developers who are involved in operations management and research, innovation, and technology development.

This book presents the basic and fundamental aspects of nanomaterials, its types, and classifications with respect to different factors. It contains methods of preparation and characterization of unique nanostructured materials. Consisting of six chapters, this book appeals to a wide readership from academia and industry professionals and is also useful to undergraduate and graduate students focusing on nanotechnology and nanomaterials, sustainable chemistry, energy conversion and storage, environmental protection, opto-electronics, sensors, and surface and interface science. It also appeals to readers who wish to know about the design of new types of materials with controlled nanostructures.

This book discusses key techniques of protection and fault ride-through in VSC-HVDC grids, including high-speed selective protection, DC fault current limitation, converter restarting, and DCCB reclosing strategies. It investigates how high-speed transient-variable-based protection can be used to improve grids' acting sensitivity, acting reliability, and ability to withstand high transition resistance compared with traditional protection. In addition, it discusses the applicability of the pilot protections, including the current differential protection and travelign-wave based protection, in the dc grid, as well as the improved methods. Furthermore, it proposes several DC FCL topologies, which are suitable for DC grids. Lastly, in the context of overhead line application conditions, it explores converter restarting and DCCB reclosing strategies, which not only identify the fault property, but also limit the secondary damage to the system, improving the system's operation security and reliability. As such, the book offers a comprehensive overview of original and advanced methods and techniques for the protection of VSC-HVDC grids.