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Notwithstanding the current excitement surrounding cutting-edge digital imaging techniques, photographic film still provides the highest resolution and most beautiful images of any medium available. For the first time in nearly 20 years, Photographic Sensitivity: Theory and Mechanisms offers a comprehensive, systematic description of the subject, stressing in particular the characteristics of silver halide photography. Topics range from how to prepare silver halide grains and latent image formation to spectral and chemical sensitization to the future of silver halide photography. Based on the author's more than 30 years' experience in the field, Photographic Sensitivity will appeal to a wide range of readers, including students, chemists, and physicists working with silver halide imaging techniques and solid state imaging.
With scientific developments, certain new technologies based on such scientific principles have now been adopted worldwide. This has resulted in complete or partial eradication of some old technologies. Changes in technologies have become more apparent after the midtwentieth century. The world prosperity has improved now, and constrains of the Second World War are no longer felt. Thus the light production using incandescent lightbulb has now become a thing of the past, while fluorescence-based light production has resulted in saving large amounts of generated electric power. Thermal steampowered (coal-based) locomotive are now completely replaced by diesel and electricity-powered locomotives. Technological changes are constantly being reported in the news. Even before this book was published, in which the replacement of electronic tubes (valves) by silicon-based transistors was included as a chapter, now there is report of carbon nanotubes replacing transistors. In agriculture, there has been a report of a genetically engineered plant (TomTato) that shall produce both potatoes and tomatoes. Human memory is short-lived. The purpose of the present book is to demonstrate such changes, with selected examples only. I hope more of the younger generation shall learn that the technologies, which they are now using, had their old predecessors. Human memory is short-lived. The new generation may not be aware of a once-useful technology getting extinct or being replaced due to the development of a better and stronger new technology. Examples of such changes are numerous, but here we have only used selected examples to illustrate such changes.
This beautifully illustrated book describes how to record images viewed through a microscope. Dealing with the principles and practice of photomicrography, it is written for all who take photomicrographs, whether beginners or more experienced practitioners. The book describes techniques which may be applied to many disciplines for teaching, research, archives, or pleasure. Techniques for the improvement of contrast are covered in considerable detail. Besides standard photography, the book describes modern digital techniques and there is also a short chapter on drawing. In addition to its value as a work of reference, the authors' clear, didactic style makes this book suitable as a textbook for courses in photomicrography and/or elementary light microscopy.
This book provides a guide to modern developments in photographic science and their possible applications to new and exciting areas, including nano-technology, solar cells, and organic semiconductors. Part I of this book describes the state of the art in photographic science, including recent developments. It describes the structure, formation and properties of silver halide (AgX) nano-particles and grains, the formation and performance of Ag clusters and nano-particles, and dye sensitization with J-aggregated dye layers. Part II describes the applications to new areas now in development, including digital photography, new nuclear-track emulsions, silver nano-particles for surface plasmon resonance, dye-sensitized solar cells, and organic semiconductors in relation to J-aggregated dye layers. Creating a record of accumulated knowledge in photographic science, this book also provides for these new areas a guide to the knowledge and ideas that arise from synergetic interactions between photographic science and technology which have pioneered unique applications of nano-particles, J-aggregates, and dye sensitization.
Up-to-date, concise, and easy to use, the Science and Technology Encyclopedia is a reliable resource for a wide general readership-from high school students to undergraduates to all those with an interest in the comprehensive array of scientific fields it covers. It includes: *More than 6,500 authoritative A-Z entries covering earth and life sciences (including natural history, physics, chemistry, medicine, information technology, and other disciplines) *Biographical entries for more than 850 famous scientists, detailing their careers and achievements *Over 20,000 cross-references *More than 250 detailed illustrations, including schematic diagrams, representational natural history artwork, and technical cutaway diagrams
Materials Science today is the base for all technological and industrial developments. The book provides the understanding of the advanced spectroscopic and microscopic instruments used for material characterization. The main issues addressed are 1) a detailed understanding of the instrument, including working and handling, 2) sample preparation, and 3) data analysis and interpretation. The book is divided in two parts i.e., Part A discusses microscopic instruments, consisting of Optical Microscope, Scanning Electron Microscopy, Atomic Force Microscopy, Field Emission Scanning Electron Microscope and X-Ray Diffraction. Part B is on spectroscopic instruments and covers FTIR Spectrometer, Raman Spectrometer, X-ray Photoelectron Spectroscopy, Ultraviolet Photoelectron Spectroscopy, Fluorescence Spectroscopy, and Nuclear Magnetic Resonance Spectroscopy.