00932nam0 2200277 450 00002340720090223085314.020090223d1965----km-y0itay50------baitaITy-------001yy<<Il >>mercato mobiliareGiorgio PivatoMilanoA. Giuffrè1965XVI, 789 p.25 cmIstituto di economia aziendale dell'Universita commerciale L. Bocconi, MilanoSer. 222001Istituto di economia aziendale dell'Universita commerciale L. Bocconi, Milano<<Il >>mercato mobiliare46187BorseMonetaMercato33216Moneta, credito, banche, borsePivato,Giorgio89063ITUNIPARTHENOPE20090223RICAUNIMARC000023407313/63346NAVA22009Mercato mobiliare46187UNIPARTHENOPE05142nam 2200649Ia 450 991014624570332120220120152114.01-280-56086-X97866105608683-527-60605-X3-527-60236-4(CKB)1000000000019292(EBL)481763(OCoLC)123896248(SSID)ssj0000111593(PQKBManifestationID)11137789(PQKBTitleCode)TC0000111593(PQKBWorkID)10080398(PQKB)10442447(MiAaPQ)EBC481763(EXLCZ)99100000000001929220040412d2004 uy 0engur|n|---|||||txtccrBiocatalysis[electronic resource] /A. S. Bommarius, B. R. RiebelWeinheim ;Cambridge Wiley-VCHc20041 online resource (637 p.)Description based upon print version of record.3-527-30344-8 Includes bibliographical references (p.591-592) and index.Biocatalysis; Preface; Acknowledgments; Contents; 1 Introduction to Biocatalysis; 1.1 Overview: The Status of Biocatalysis at the Turn of the 21st Century; 1.1.1 State of Acceptance of Biocatalysis; 1.1.2 Current Advantages and Drawbacks of Biocatalysis; 1.1.2.1 Advantages of Biocatalysts; 1.1.2.2 Drawbacks of Current Biocatalysts; 1.2 Characteristics of Biocatalysis as a Technology; 1.2.1 Contributing Disciplines and Areas of Application; 1.2.2 Characteristics of Biocatalytic Transformations; 1.2.2.1 Comparison of Biocatalysis with other Kinds of Catalysis1.2.3 Applications of Biocatalysis in Industry1.2.3.1 Chemical Industry of the Future: Environmentally Benign Manufacturing, Green Chemistry, Sustainable Development in the Future; 1.2.3.2 Enantiomerically Pure Drugs or Advanced Pharmaceutical Intermediates (APIs); 1.3 Current Penetration of Biocatalysis; 1.3.1 The Past: Historical Digest of Enzyme Catalysis; 1.3.2 The Present: Status of Biocatalytic Processes; 1.4 The Breadth of Biocatalysis; 1.4.1 Nomenclature of Enzymes; 1.4.2 Biocatalysis and Organic Chemistry, or "Do we Need to Forget our Organic Chemistry?"2 Characterization of a (Bio-)catalyst2.1 Characterization of Enzyme Catalysis; 2.1.1 Basis of the Activity of Enzymes: What is Enzyme Catalysis?; 2.1.1.1 Enzyme Reaction in a Reaction Coordinate Diagram; 2.1.2 Development of Enzyme Kinetics from Binding and Catalysis; 2.2 Sources and Reasons for the Activity of Enzymes as Catalysts; 2.2.1 Chronology of the Most Important Theories of Enzyme Activity; 2.2.2 Origin of Enzymatic Activity: Derivation of the Kurz Equation; 2.2.3 Consequences of the Kurz Equation; 2.2.4 Efficiency of Enzyme Catalysis: Beyond Pauling's Postulate2.3 Performance Criteria for Catalysts, Processes, and Process Routes2.3.1 Basic Performance Criteria for a Catalyst: Activity, Selectivity and Stability of Enzymes; 2.3.1.1 Activity; 2.3.1.2 Selectivity; 2.3.1.3 Stability; 2.3.2 Performance Criteria for the Process; 2.3.2.1 Product Yield; 2.3.2.2 (Bio)catalyst Productivity; 2.3.2.3 (Bio)catalyst Stability; 2.3.2.4 Reactor Productivity; 2.3.3 Links between Enzyme Reaction Performance Parameters; 2.3.3.1 Rate Acceleration; 2.3.3.2 Ratio between Catalytic Constant k(cat) and Deactivation Rate Constant k(d)2.3.3.3 Relationship between Deactivation Rate Constant k(d) and Total Turnover Number TTN2.3.4 Performance Criteria for Process Schemes, Atom Economy, and Environmental Quotient; 3 Isolation and Preparation of Microorganisms; 3.1 Introduction; 3.2 Screening of New Enzyme Activities; 3.2.1 Growth Rates in Nature; 3.2.2 Methods in Microbial Ecology; 3.3 Strain Development; 3.3.1 Range of Industrial Products from Microorganisms; 3.3.2 Strain Improvement; 3.4 Extremophiles; 3.4.1 Extremophiles in Industry; 3.5 Rapid Screening of Biocatalysts; 4 Molecular Biology Tools for Biocatalysis4.1 Molecular Biology Basics: DNA versus Protein LevelThe whole range of biocatalysis, from a firm grounding in theoretical concepts to in-depth coverage of practical applications and future perspectives. The book not only covers reactions, products and processes with and from biological catalysts, but also the process of designing and improving such biocatalysts.One unique feature is that the fields of chemistry, biology and bioengineering receive equal attention, thus addressing practitioners and students from all three areas.EnzymesBiotechnologyBiosynthesisCatalysisElectronic books.EnzymesBiotechnology.Biosynthesis.Catalysis.660.634Bommarius A. S(Andreas Sebastian)442347Riebel B. R(Bettina R.)442348MiAaPQMiAaPQMiAaPQBOOK9910146245703321Biocatalysis85079UNINA05175nam 2201405 450 991081886770332120230125233013.01-60649-677-8(CKB)2670000000576296(EBL)1840750(SSID)ssj0001412088(PQKBManifestationID)11916473(PQKBTitleCode)TC0001412088(PQKBWorkID)11406119(PQKB)10369927(OCoLC)897846155(CaBNVSL)swl00404388(Au-PeEL)EBL1840750(CaPaEBR)ebr10991781(CaONFJC)MIL662051(CaSebORM)9781606496763(MiAaPQ)EBC1840750(EXLCZ)99267000000057629620141207d2015 fy 0engur|n|---|||||txtccrMacroeconomics integrating theory, policy and practice for a new era /David G. TuerckFirst edition.New York, New York (222 East 46th Street, New York, NY 10017) :Business Expert Press,2015.1 online resource (266 p.)Economics collection,2163-7628Part of: 2014 digital library.1-60649-676-X 1-322-30769-5 Includes bibliographical references (pages 243-245) and index.1. Introduction -- 2. Macro measurements -- 3. Individual equilibrium -- 4. Saving -- 5. Capital -- 6. Labor, production, and economic growth -- 7. Deficit spending -- 8. Taxes and the macroeconomy -- 9. Excess supply and excess demand -- 10. Equilibrium low employment -- 11. The great contraction -- 12. Lessons from recent macroeconomic policy making -- 13. The macroeconomic challenge -- References -- Index.Macroeconomics is the study of the economy as a whole and of work and saving choices of individual economic agents from which macroeconomic activity emerges. This book takes an integrative approach to that topic, showing how short-run and long-run forces operate simultaneously to determine the behavior of key economic indicators such as employment and real, inflation-adjusted GDP.2014 digital library.Economics collection.2163-7628Macroeconomicsaggregate demandaggregate supplybaseline scenariochain-weight methodclassical traditionCobb-Douglas production functioncompensated supply curveconsumption taxcontractive monetary and fiscal policycost of capitaldemand multiplierdepreciation ratediminishing marginal rate of substitutionexcess demandexcess supplyexpansive monetary and fiscal policyflat taxfrictional unemploymentfull employmentgolden rule of economic growthGreat Contractiongross national productincome effectindividual equilibriuminterest parity conditionintertemporal elasticity of substitutionINUSKeynesian scenariolabor force participation ratelabor incomeLaffer curveleisurelongrun aggregate supplymacro foundationsmarginal effective tax ratemarginal productmarginal propensity to consumemarginal propensity to producemarginal rate of substitutionmarginal utilitymicro foundations, moneynatural unemployment ratenet foreign investmentnew classical economicsnominal rate of returnnon-accelerating inflation rate of unemploymentnon- accelerating inflation rate of labor-force participationoutput supply multiplierPhillips curvepotential GDPpresent valuepurchasing power parityrate of time preferencereal rate of returnreplacement raterepressed inflationrepressed wagessaving rateself-reliance rateshort-run aggregate supplystabilization policiessteady state of economic growthstructural unemploymentsubstitution effectsupply side economicsuncompensated supply curveunemployment rateMacroeconomics.339Tuerck David G.1097778MiAaPQMiAaPQMiAaPQBOOK9910818867703321Macroeconomics3937781UNINA