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200 10$aGround-water studies and analog models /$fby Charles J. Robinove
210  1$aWashington :$cUnited States Department of the Interior, Geological Survey,$d1962.
215   $a1 online resource (iii, 12 pages) $cillustrations
225 1 $aGeological Survey circular ;$v468
606   $aGroundwater$xComputer simulation
606   $aHydrologic models
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606   $aHydrologic models$2fast
615  0$aGroundwater$xComputer simulation.
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615  7$aGroundwater$xMathematical models.
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700   $aRobinove$b Charles Joseph$f1931-$01388959
712 02$aGeological Survey (U.S.),
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200 10$aEngineering biosensors $ekinetics and design applications /$fAjit Sadana
210   $aSan Diego $cAcademic Press$dc2002
215   $a1 online resource (419 p.)
300   $aDescription based upon print version of record.
311   $a0-12-613763-3 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Engineering Biosensors: Kinetics and Design Applications; Copyright Page; Contents; Preface; Chapter 1. Introduction; 1.1 Background, Definition, and the Need for Biosensors; 1.2 Assay Formats; 1.3 Difficulties with Biosensor Applications; 1.4 Newer Applications for Biosensors; 1.5 Commercially Available Biosoensors; 1.6   Biomedical Applications; 1.7 Overview; Chapter 2. Influence of Diffusional Limitations and Reaction Order on Antigen-Antibody Binding Kinetics; 2.1 Introduction; 2.2 Theory
327   $aChapter 3. Influence of Diffusional Limitations and Lateral Interactions on Antigen-Antibody Binding Kinetics3.1 Introduction; 3.2 Theory; 3.3 Conclusions; Chapter 4. Fractal  Reaction Kinetics; 4.1 Introduction; 4.2 Fractal Kinetics; Chapter 5. Influence of Different Parameters on Fractal Dimension Values During the Binding Phase; 5.1 Introduction; 5.2 Theory; 5.3 Results; 5.4 Summary and Conclusions; Chapter 6. Fractal Dimension and  the Binding Rate Coefficient; 6.1 Introduction; 6.2 Theory; 6.3 Results; 6.4 Conclusions; Chapter 7. Fractal Dimension and the Dissociation Rate Coefficient
327   $a7.1 Introduction7.2 Theory; 7.3 Results; 7.4 Conclusions; Chapter 8. Influence of Nonspecific Binding on the Rate and Amount of Specific Binding: A classical analysis; 8.1 Introduction; 8.2 Theory; Chapter 9. Influence of Nonspecific Binding on the  Rate and Amount of Specific Binding: A Fractal Analysis; 9.1 Introduction; 9.2 Theory; 9.3 Results; 9.4 Other Examples of Interest; 9.5 Conclusions; Chapter 10. Fractal Dimension and Hybridization; 10.1 Introduction; 10.2 Theory; 10.3 Results; 10.4 Conclusions; Chapter 11. Fractal Dimension and Analyte-Receptor Binding  in Cells; 11.1 Introduction
327   $a11.2 Theory 11.3 Results; 11.4 Conclusions; Chapter 12. Surface Plasmon Resonance Biosensors; 12.1 Introduction; 12.2 Theory; 12.3 Results; 12.4 Conclusions; Chapter 13. Economics and  Market for Biosensors; 13.1 Introduction; 13.2 Market Size and Economics; 13.3 Development Cost  of a Biosensor; 13.4 Cost Reduction Methods; Index
330   $aBiosensors are becoming increasingly important bioanalytical tools in the pharmaceutical, biotechnology, food, and other consumer oriented industries. The technology, though well developed in Europe, is slowly developing and has begun to generate interest in the United States only over the past couple of years. Research is now being directed toward the development of biosensors that are versatile, economical, and simple to use. Engineering Biosensors is a comprehensive introduction to biosensors that includes numerous illustrations to further explain the  main concepts and practical exa
606   $aBiosensors
606   $aLigand binding (Biochemistry)
615  0$aBiosensors.
615  0$aLigand binding (Biochemistry)
676   $a572/.028
700   $aSadana$b Ajit$f1947-$0877882
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