The significance of Japanese-language scholarship on China cannot be overstated. Yet much of it is largely untapped by China scholars in both the West and China, in part because they are unfamiliar with the Japanese pronunciation of Chinese characters. Even those who know Japanese are frequently frustrated when seeking an obscure reading of a personal or place name. The purpose of this volume is to enable Sinologists and others involved in Chinese studies to access entries in Japanese reference works dealing with China without going through the time-consuming process of looking up characters by radical and stroke. For users of this dictionary, it is a simple matter to find a character by looking it up by its alphabetical pinyin pronunciation. Having located it, the user can go directly to the item in Japanese reference works. The Dictionary includes more than 13,072 entries not only in Chinese characters and their Sino-Japanese (ondoku/onyomi) readings, but also the Japanese (kundoku/kunyomi) readings. The romanized Japanese readings will assist in correctly transcribing Japanese names, such as the names of Japanese publishers and authors, and the technical terms employed by Japanese in their writings on China. These features will also give those familiar with pinyin greater access to material on Japanese history and culture. The ABC Dictionary of Sino-Japanese Readings will be a boon to Sinologists and others interested in the study of China.
This book covers the structure and classification of adhesion molecules in relation to signaling pathways and gene expression. It discusses immunohistochemical localization, neutrophil migration, and junctional, functional, and inflammatory adhesion molecules in pathologies such as leukocyte decompression sickness and ischemia reperfusion injury. H
The twelfth edition of this classic reference work includes: - More than 2,000 new entries - A total of more than 9,000 entries - New features and enhancement of the familiar old features - Mapping information on more than 4,000 genes of known function - Information on specific point mutations responsible for more than 700 genetic disorders or neoplasms Mendelian Inheritance in Man (MIM) is a genetic knowledgebase that serves clinical medicine and biomedical research, including the Human Genome Project. It aims to be comprehensive (not only complete, but also collated, integrated, and interpreted), authoritative (not only accurate but also sound in its interpretations and judgements), and timely (not only up-to-date but also historically dimensioned). From a review of the eleventh edition, Reproductive Toxicology: "Even the convenience of computer-based forms of MIM cannot eliminate the need for MIM in book form. The preface provides a wonderful synopsis of human genetics. The information contained in this text serves as a concise review for those with a genetics background." From a review of the tenth edition, New England Journal of Medicine: " Victor McKusick] has been for all these years the shepherd of the development of the field of clinical genetics]. Perhaps his most important pragmatic achievement has been the 10 editions of Mendelian Inheritance in Man, which rapidly became and has remained the principal source of information on inherited diseases for all clinical geneticists. "In addition to the erudite entries in the books, the references given with each description represent a magnificent bibliography of clinical genetics. With McKusick's leadership and continued interest in gene mapping, the book also rep-resents an important compen-dium of the location of genes on specific chromosomes. "The book is a magnificent security blanket for the clinical geneticist and should be in the libraries not only of these specialists, but also of all others who see patients with diseases that have genetic components.
Completely updated, the Fifth Edition of this standard-setting two-volume reference presents the most advanced diagnostic techniques and the latest information on all currently known disease entities. More than 90 preeminent surgical pathologists offer expert advice on the diagnostic evaluation of every type of specimen from every anatomic site. The Fifth Edition contains over 4,400 full-color photographs. This edition provides detailed coverage of the latest developments in the field, including new molecular and immunohistochemical markers for diagnosis and prognosis of neoplasia, improved classification systems for diagnosis and prognosis, the role of pathology in new diagnostic and therapeutic techniques, and the recognition of new entities or variants of entities. All full-color illustrations have been color-balanced to dramatically improve image quality.
PHYSICS OF THIN-FILM PHOTOVOLTAICS Tackling one of the hottest topics in renewables, thin-film photovoltaics, the authors present the latest updates, technologies, and applications, offering the most up-to-date and thorough coverage available to the engineer, scientist, or student. It appears rather paradoxical that thin-film photovoltaics (PVs) are made of materials that seem unacceptable from the classical PV perspective, and yet they often outperform classical PV. This exciting new volume solves that paradox by switching to a new physics paradigm. Many concepts here fall beyond the classical PV scope. The differences lie in device thinness (microns instead of millimeters) and morphology (non-crystalline instead of crystalline). In such structures, the charge carriers can reach electrodes without recombination. On the other hand, thin disordered structures render a possibility of detrimental lateral nonuniformities (“recombination highways”), and their energy spectra give rise to new recombination modes. The mechanisms of thermal exchange and device degradation are correspondingly unique. The overall objective of this book is to give a self-contained in-depth discussion of the physics of thin-film systems in a manner accessible to both researchers and students. It covers most aspects of the physics of thin-film PV, including device operations, material structure and parameters, thin-film junction formation, analytical and numerical modeling, concepts of large area effects and lateral non-uniformities, physics of shunting (both shunt growth and effects), and device degradation. Also, it reviews a variety of physical diagnostic techniques proven with thin-film PV. Whether for the veteran engineer or the student, this is a must-have for any library. This outstanding new volume: Covers not only the state-of-the-art of thin-film photovoltaics, but also the basics, making this volume useful not just to the veteran engineer, but the new-hire or student as well Offers a comprehensive coverage of thin-film photovoltaics, including operations, modeling, non-uniformities, piezo-effects, and degradation Includes novel concepts and applications never presented in book format before Is an essential reference, not just for the engineer, scientist, and student, but the unassuming level of presentation also makes it accessible to readers with a limited physics background Is filled with workable examples and designs that are helpful for practical applications Is useful as a textbook for researchers, students, and faculty for understanding new ideas in this rapidly emerging field Audience: Industrial professionals in photovoltaics, such as engineers, managers, research and development staff, technicians, government and private research labs; also academic and research universities, such as physics, chemistry, and electrical engineering departments, and graduate and undergraduate students studying electronic devices, semiconductors, and energy disciplines
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