LEADER 01075cam0-22003371i-450 
001 990004725560403321
005 20211111165329.0
035   $a000472556
035   $aFED01000472556
035   $a(Aleph)000472556FED01
035   $a000472556
100   $a19990604e1994----km-y0itay50------ba
101 0 $agrc$alat
102   $aDE
105   $ay---n---001yy
200 1 $aProcli Diadochi In Platonis Cratylum commentaria$fed. Georgius Pasquali
205   $aEd. stereotypa ed. 1. (1908).
210   $aStutgardiae et Lipsiae$cTeubneri$d1994
215   $aXIII, 149 p.$d21 cm
500 10$aIn Platonis Cratylum$917974
610 0 $aLetteratura greca$aProcopio$aIn Platonis Cratylum commentaria
676   $a880.08$v11 rid.$zita
700  0$aProclus Atheniensis$f<410-ca.485>$0293179
702  1$aPasquali,$bGiorgio$f<1885-1952>
801  0$aIT$bUNINA$gREICAT$2UNIMARC
901   $aBK
912   $a990004725560403321
952   $aP2B 600 TEUB.GR. PROCLUS1 413A 1994$b21936$fFLFBC
959   $aFLFBC
996   $aIn Platonis Cratylum$917974
997   $aUNINA

LEADER 04625oam  2200313z- 450 
001 9911034968803321
005 20230120002520.0
010   $a0-444-63753-2
035   $a(CKB)3710000000730093
035   $a(EXLCZ)993710000000730093
100   $a20180305d2016uuuu  -u-         -
101 0 $aeng
200 10$aCatalytic kinetics $echemistry and engineering /$fDmitry Yu. Murzin and Tapio Salmi
205   $aSecond edition.
210   $aAmsterdam $cElsevier$d2016
215   $a1 online resource
320   $aIncludes bibliographical references and index.
327   $aMachine generated contents note:$g1.1.$tHistory --$g1.2.$tCatalysis --$g1.3.$tFormal Kinetics --$g1.4.$tAcquisition of Kinetic Data --$g1.5.$tKinetics and Thermodynamics --$g1.6.$tExamples and Exercises --$tReference --$g2.1.$tHomogeneous Catalysis --$g2.2.$tHeterogeneous Catalysis --$g2.3.$tOrganocatalysis --$g2.4.$tExamples and Exercises --$tReference --$g3.1.$tReaction Rate Theory --$g3.2.$tElementary Reactions in Solutions --$g3.3.$tReaction Mechanism --$g3.4.$tQuasi-equilibrium Approximation --$g3.5.$tRelationship Between Thermodynamics and Kinetics --$g3.6.$tTransition State Theory of Surface Reactions --$g3.7.$tRates of Reactions on Nonideal Surfaces --$g3.8.$tDeterministic and Stochastic Models --$g3.9.$tMicrokinetic Modeling --$g3.10.$tCompensation Effect --$g3.11.$tIsotope Effects --$g3.12.$tExamples and Exercises --$tReferences --$g4.1.$tSteady State Kinetics of Complex Reactions --$g4.2.$tBasic Routes of Complex Reactions --$g4.3.$tSingle-Route Steady-State Reaction --$g4.4.$tTopological Analysis of Complex Reactions --$g4.5.$tElectrical Analogy of Reaction Networks --$g4.6.$tThermodynamic Consistency of Rate Constants for Complex Networks --$g4.7.$tKinetic Aspects of Selectivity --$g4.8.$tParallel Reactions: Kinetic Coupling --$g4.9.$tReduction of Complexity --$g4.10.$tPolynomial Kinetics --$g4.11.$tExamples and Exercises --$tReferences --$g5.1.$tHomogeneous Acid-Base Catalysis --$g5.2.$tNucleophilic Catalysis --$g5.3.$tCatalysis by Metal Ions --$g5.4.$tCatalysis by Organometallic Complexes --$g5.5.$tOrganocatalysis --$g5.6.$tPolymerization Catalysis --$g5.7.$tExamples and Exercises --$tReferences --$g6.1.$tEnzymatic Catalysis --$g6.2.$tCooperative Kinetics --$g6.3.$tInhibition --$g6.4.$tEffects of pH --$g6.5.$tSingle Molecule Enzymology --$g6.6.$tEnantioselectivity in Enzyme Catalyzed Reactions --$g6.7.$tGeneralized Rate Laws for Enzymatic Reactions --$g6.8.$tHeterogeneous Systems/Immobilized Enzymes --$g6.9.$tExamples and Exercises --$tReferences --$g7.1.$tReactions on Ideal Surfaces --$g7.2.$tReactions on Nonideal Surfaces --$g7.3.$tSelectivity --$g7.4.$tPolyatomic Nature of Reactants and Coverage-Dependent Adsorption Mode --$g7.5.$tSolvent Effects --$g7.6.$tIonic Species --$g7.7.$tTransfer of Labeled Atoms in Heterogeneous Catalytic Reactions --$g7.8.$tElectrocatalytic Kinetics --$g7.9.$tPhotocatalytic Kinetics --$g7.10.$tNanokinetics --$g7.11.$tExamples and Exercises --$tReferences --$g8.1.$tGeneral --$g8.2.$tCombined Catalytic and Noncatalytic Reactions --$g8.3.$tMultiple Catalysts of the Same Type --$g8.4.$tMultiple Catalysts of Different Types --$g8.5.$tExamples and Exercises --$tReferences --$g9.1.$tTransient Kinetics --$g9.2.$tRelaxation Methods --$g9.3.$tTemperature-Programmed Desorption --$g9.4.$tOscillations --$g9.5.$tDynamic Catalyst Changes --$g9.6.$tExamples and Exercises --$tReferences --$g10.1.$tCatalytic Multi-Phase Systems --$g10.2.$tSimultaneous Reaction and Diffusion in Fluid Films and in Porous Materials --$g10.3.$tLiquid-Liquid Diffusion, Phase-Transfer Catalysis --$g10.4.$tCatalytic Two-Phase Systems --$g10.5.$tMass Transfer and Enzymatic Kinetics --$g10.6.$tExternal Mass Transfer --$g10.7.$tInternal Diffusion and Selectivity --$g10.8.$tInternal Diffusion and Deactivation --$g10.9.$tElucidation of the Impact of Mass Transfer --$g10.10.$tThree-Phase Systems --$g10.11.$tExamples and Exercises --$tReferences --$g11.1.$tBasic Principles --$g11.2.$tHeuristic Design of Experiments --$g11.3.$tParameter Estimation: Classical Methods --$g11.4.$tParameter Estimation: Regression --$g11.5.$tNumerical Strategies --$g11.6.$tAnalysis of Parameters --$g11.7.$tModel Discrimination --$g11.8.$tSoftware --$g11.9.$tCase Studies --$tReferences.
606   $aCatalysis
606   $aChemical kinetics
615  0$aCatalysis.
615  0$aChemical kinetics.
676   $a541/.395
700   $aMurzin$b Dmitry$f1963-$01709692
702   $aSalmi$b Tapio
906   $aBOOK
912   $a9911034968803321
996   $aCatalytic kinetics$94448615
997   $aUNINA