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Research in Progress
Vols. for 1977- consist of two parts: Chemistry, biological sciences, engineering sciences, metallurgy and materials science (issued in the spring); and Physics, electronics, mathematics, geosciences (issued in the fall).
Research in Progress
None
Current Catalog
First multi-year cumulation covers six years: 1965-70.
Biosensors with Fiberoptics
Focusing on the rapidly increasing interaction between biotechnology and advanced fiberoptics/electronics, Biosensors with Fiberoptics emphasizes the three major phases of the developmental process from concept to marketplace: research, development, and applications. With contributions by leading experts directly involved in key areas of this exciting, fast-paced field, the book describes novel biosensor technologies and such current and potential applications as: chemical sensing • fluorescent labels • evanescent-wave biosensors and immunosensors • clinical applications • immunoassay kinetics • luminescence • monitoring of environmental toxins. Researchers and clinicians in a broad spectrum of disciplines will find Wise and Wingard's Biosensors with FIBEROPTICS an extremely practical, up-to-date reference text.
Enzyme Engineering Volume 2
Considerable worldwide interest has arisen in recent years in the controlled use of enzymes as catalysts in industrial processing, analytical chemistry and medical therapy. This interest has genera ted the new interdisciplinary field of Enzyme Engineering, which includes both the scientific and technologic aspects of the produc tion, purification, immobilization, and application of enzymes in a variety of situations and reactor configurations. A series of Engineering Foundation conferences on Enzyme Engineering was initia ted to provide an international forum for the exchange of ideas and information over the entire range of this new field. The outstanding success of the first two conference...
Biotechnology: Bridging Research and Applications
Biotechnology is advancing at a rapid pace with numerous applications in medicine, industry, agriculture and environmental remediation. Recognizing this, government, industrial and academic research and development invest ment in biotechnology has expanded rapidly. The past decade has seen the emergence of applications of this technology with a dual-use potential. Mili tary applications focus on four major areas: biomedical technology, such as vaccine development and medical diagnostics; detection of toxins, chemicals and pathogens; material biotechnology; and biological decontamination, in cluding biodegradation and bioremediation. This conference emphasizes the non-medical applications of ...
Biomedical Applications of Immobilized Enzymes and Proteins
I) ADSORPTION EEEEEEEE E E carrier 2) COVALENT LINKAGE a) Insoluble support b) Intermolecular linkage N'E~ ~~ c) Soluble support 0 \:)....m 3) tM TRIX (MOLECULAR) ENTRAPMENT ~~~~~;;..,J~-polymer matrix 4) ENCAPSULATION membrane FIGURE I. Classification of immobilized enzymes. Covalently linked, adsorbed, and matrix-entrapped enzymes represent stage II, research on the microenvironment. Microencapsulation represents stage III, research on the intracellular environment. Further subdivision of microencapsulated enzymes will be found in Chapter 12. 4 T. M. S. CHANG matrix entrapment. In this section, detailed discussions will center on clinical analysis, urine analysis, monitoring of environment...
Analytical Applications of Immobilized Enzymes and Cells
Analytical Applications of Immobilized Enzymes and Cells, Volume 3 presents a survey of the interdisciplinary interactions, developments, and trends on research in immobilized enzymes and cells. This volume is comprised of eight chapters. Chapters 1 to 4 are devoted to the description of methodologies and instrumentations which are used in routine analysis. Among those described are enzyme tubes, enzyme thermistors, and enzymic or microbial electrodes. Chapter 4 provides a theoretical analysis of electrode design. Subsequent chapters focus on solid-phase enzyme immunoassays and on techniques for in vivo monitoring of metabolites; economic evaluation of the use of high-purity enzymes in analysis; and an assessment of the significance of microprocessors and computer science in enzyme based analysis. Chemists and chemical engineers will find the book very useful.
Immobilized Enzyme Principles
Applied Biochemistry and Bioengineering, Volume 1: Immobilized Enzyme Principles focuses on the utilization of immobilization techniques for the study and application of enzyme catalysts in a variety of potential end-uses. This book emphasizes the preparation of enzyme-support systems, effects caused by the concurrent phenomena of enzyme-catalyzed reaction kinetics and mass transfer resistances, and how these reactions are incorporated into the design of enzyme-catalyzed reactor systems. The magnitude of the perturbation of the apparent kinetic parameters of an immobilized enzyme that could serve in principle as a measure of the effective concentrations of substrate, modifier, or inhibitor at the site of the enzymic reaction is also explained. This volume is recommended for biological scientists and engineers, as well as researchers interested in the biochemical common denominator that causes the interaction of engineering practice and biological sciences for technological development.
