# SEARCH

** 1,1 -Bis[2- , in model complexes **

** 2 kinetic analysis method model system complexity **

** A Model for the Electron Transfer Complex **

** Acetyl coenzyme A synthase model complexes **

** Activated complex theory model calculations of rate constants **

** Activation of receptors ternary complex model **

** Adsorption from electrolyte solutions Surface complexation models **

** Adsorption surface complexation models **

** Alkene complexes bonding models **

** Angular overlap model trigonal bipyramidal complexes **

** Biological systems, complex interactions, modeling **

** Bonding in Complex Ions The Localized Electron Model **

** Bonding models for CO and its complexe **

** Bonding models for CO and its complexes **

** Bonding models for alkene complexes **

** Bonding models for alkyne complexes **

** Bonding models for allyl complexes **

** Bonding models for carbene complexes **

** Bonding models for cyclopentadienyl complexe **

** Bonding models for cyclopentadienyl complexes **

** Bonding models for diene complexes **

** Bonding models for phosphine complexe **

** Bonding models of carbene complexes **

** Bonding models of carbene complexes coordination to a metal **

** Bonding models of carbene complexes geometries **

** Bonding models of carbene complexes substituent effects **

** Capacitance complexation model **

** Carbene complexes bonding models **

** Carbon cycle intermediate complexity models **

** Carbyne complexes bonding models **

** Catalysis, by peptide model complexes **

** Cell receptor complexes modeling **

** Charge distribution multisite complexation CD-MUSIC) model **

** Chemical models of metal-citrate aqueous complexation **

** Chemical surface complexation models **

** Clusters complexes in HDS modeling **

** Cobalt , Schiff base complexes, as models **

** Complex Crystallization Conditions General Models **

** Complex biological system, mathematical model **

** Complex flow patterns axial dispersion model **

** Complex flow patterns semi-empirical models for reactors **

** Complex ions crystal field model **

** Complex ions ligand field model **

** Complex ions localized electron model **

** Complex ions localized electron model for **

** Complex ions molecular orbital model **

** Complex kinetic models, rigorous analysis **

** Complex modeling of pair distribution **

** Complex modeling of pair distribution function **

** Complex models, relations between **

** Complex models, relations between simple and **

** Complex permittivity composite model **

** Complex potential model, tunneling and **

** Complex reacting systems, modeling **

** Complex reaction system modeling **

** Complex systems theory cycle model **

** Complex systems theory metabolic modeling **

** Complex-induced proximity effect model **

** Complexes and clusters molecular modelling **

** Complexes covalent bonding models **

** Complexes extended bonding models **

** Complexes ionic bonding models **

** Complexes simulation speciation models **

** Complexity and emergence molecular modelling **

** Complexity of detailed modelling **

** Component additivity , in surface complexation models **

** Computational fluid dynamics complex shape modeling using **

** Computer Modeling of Complex Reaction Kinetics **

** Constant-capacitance surface complexation model, applications **

** Copolymerization complex dissociation model **

** Copolymerization complex participation model **

** Copolymerization monomer complex models **

** Copper complexes model compounds **

** Copper coordination complexes, models **

** Copper coordination complexes, models proteins **

** Copper proteins model complexes **

** Copper-thiolate model complexes **

** Crystal field theory A model for coordination complexes in which the **

** Crystallization models for complex conditions **

** Cysteine-Containing Oligopeptide Model Complexes of Iron-Sulfur Proteins **

** Cysteine-containing oligopeptide model complexes **

** Deactivating catalyst, modeling of complex reaction **

** Deficiencies of surface complexation models **

** Deoxyhemoglobins and model complexes **

** Detailed modelling physical complexity **

** Dewar-Chatt-Duncanson model, n-olefin complexes **

** Diffuse layer model complex constants **

** Diffuse layer model metal surface complexation constants **

** Dinuclear copper complexes modeling hemocyanin **

** Dinuclear copper proteins model complexes **

** Dinuclear phosphoesterase enzymes functional model complexes **

** Donor-H complexes structural model **

** Donor-acceptor complexes reaction center models **

** Earth models of intermediate complexity **

** Electrical interfacial layer surface complexation model **

** Electrochemical models complexity **

** Electrolyte activity complexation model **

** Electron count in a complex the covalent model **

** Elongator complex functional model **

** Enzyme-substrate complex induced-fit model **

** Enzyme-substrate complex lock-and-key model **

** Equilibrium parameters complex kinetic models **

** Extended ternary complex model **

** Factor modeled inhibitor complexes **

** Fe -citrate complexation model **

** Fe complexes, hydrogen bonds functional models **

** Ferredoxin peptide model complexes **

** G protein complex-receptor model **

** Generalized composite approach in surface complexation models **

** HYBRID METHODS OF MODELING COMPLEX MOLECULAR SYSTEMS **

** Half-reactions model complexes **

** Halogen complexes model compounds **

** Homogeneous catalysis complex rate models) **

** Hush model class II mixed-valence complexes, parameters **

** Hydrogen-bonding association model complex ions **

** Hydrogen-bonding association model complexes **

** Hydroxides, urease active site models, dinickel complexes **

** Immobilization of Model Complexes and GpdQ on Magnetite Nanoparticles **

** Immune complex diseases animal model **

** Individual structure-complexation property models **

** Induced fit model for enzyme-substrate complex **

** Industrial Source Complex models **

** Intermediate complexity models, carbon **

** Iron complexes MS] enzyme modeling **

** Iron complexes synthetic model **

** J.-L. Rivail et al. , Quantum Modeling of Complex Molecular Systems **

** Kinetic modeling complex viscosity **

** Kinetics models for complex crystallization conditions **

** Lewis acid-base model for complex ions **

** Lewis acid-base model of complex ions **

** Lewis model acid base complex and **

** Ligand exchange surface complex model **

** Ligand structures model complexes **

** Light-harvesting complexes chlorosome model **

** Light-harvesting pigment protein complex model **

** Linear model based on 1:1 complex **

** Localized electron model complex ions and **

** Localized electron model of complex ions **

** Macrocyclic Complexes as Models for **

** Macrocyclic Complexes as Models for Nonporphine Metalloproteins **

** Manganese complexes enzyme model complex) **

** Manganese complexes modeling Mn catalase **

** Marcus Model of Electron-Transfer Reactions Metal-Complex Ions **

** Mass action equations for surface complexation model **

** Materials and Methods Model Complexes **

** Mathematical modeling complexity **

** Metabolic modeling complex system dynamics **

** Metal-citrate aqueous complexation, chemical models **

** Metals surface complexation models **

** Mixed-valence complexes Hush model **

** Mixed-valence complexes Hush model parameters **

** Mixed-valence complexes PKS model **

** Mixed-valence complexes coupling model **

** Model Complexes of the Acid-Pyridine Type **

** Model complexes for DNA binding studies **

** Model complexes for copper monooxygenases **

** Model complexes for cytochrome **

** Model complexes for diene polymerization **

** Model complexes for diiron enzymes **

** Model complexes for heme proteins **

** Model complexes for hemocyanin **

** Model complexes for manganese catalase **

** Model complexes for nonheme monooxygenases **

** Model complexes for oxygen-evolving complex **

** Model complexes for ribonucleotide reductase **

** Model complexes role in understanding enzymes **

** Model for complex gas-phase reactions **

** Model for the Complex Viscosity Function **

** Model for transition-state complex **

** Model systems for oxygen-evolving complex **

** Modeling at different levels of complexity **

** Modeling of Complex Biomedical Systems **

** Modeling of Complex Polycondensation Reactions **

** Modeling of CyDs and Their Complexes **

** Modeling of complexation and chloroform solution **

** Modeling of complexation and extraction **

** Modeling of complexation and gas phase **

** Modeling of complexation and water solution **

** Modeling with Transition-metal Complexes **

** Models Complex Terrain Dispersion **

** Models charge distribution multisite complexation **

** Models for complexation by organic surfaces **

** Models involving monomer complexes **

** Models metal-citrate complexation **

** Models of Increasing Complexity **

** Models of intermediate complexity **

** Models of surface complexation **

** Models/modeling complex liquid structure-property relationships **

** Molecular Modeling cation complexation **

** Molecular modeling metal complexes with open **

** Molecular modelling crown ether-cation complexes **

** Molecular modelling metal complexes **

** Molecular modelling transition metal complexes **

** Molecular models of copper complexes **

** Molecular orbital models, solid-state complexes **

** More complex mathematical models **

** Multisite surface complexation model **

** NO complexes Fe -heme models, nitrosylation **

** New complexes as catalysts models **

** Numerical Calculations for a Complex Model **

** Numerical investigation of complex models **

** Numerical solution, of complex flow models **

** Octahedral complexes VSEPR model and **

** Octahedral complexes crystal field model **

** Octahedral complexes extended bonding models **

** Octahedral complexes molecular orbital model **

** Open-sided models, enzyme modeling complexes **

** Oxygen-evolving complex S states model **

** Oxygen-evolving complex dimer-of-dimers model **

** Oxygen-evolving complex model complexes **

** Oxygen-evolving complex model compounds **

** Oxygen-evolving complex modeling **

** Oxygen-evolving complex water oxidation model system **

** Pair distribution function complex modeling **

** Peptide model complexes, catalysis **

** Pharmacokinetics complex models **

** Phase space models, and collision complex **

** Phosphoesterase enzymes, dinuclear model complexes **

** Platinum-nucleobase model complexes **

** Polymerization of Phenols Using Model Complexes **

** Porphyrin complexes Gouterman model **

** Pre-transition state complexation model **

** Properties of foods complex models **

** Quantum chemistry model complexes **

** Rate equations complex, 81 steady state model **

** Reaction models for complex gas phase reactions, development **

** Reactions of Model Complexes with **

** Receptor complexes ternary complex models **

** Receptor extended ternary complex model **

** Receptor ternary complex model **

** Rheological models complex viscosity **

** Rubredoxin peptide model complexes **

** Simple and complex models, relations **

** Site Complexation Model (Triple-Layer) **

** Solution phase models complex’ model **

** Solution-phase reactions, surface complexation models **

** Subject modelling complex materials **

** Surface Complexation Models Statistical Mechanics **

** Surface charge complexation model **

** Surface complex formation model **

** Surface complex model activity coefficients **

** Surface complex triple-layer model **

** Surface complexation model activity coefficients **

** Surface complexation model characteristics **

** Surface complexation model structure **

** Surface complexation models (SCMs **

** Surface complexation models Stem layer model **

** Surface complexation models Stem model **

** Surface complexation models acid-base properties **

** Surface complexation models adsorption experiments **

** Surface complexation models approximation **

** Surface complexation models binary suspensions **

** Surface complexation models capacitance values **

** Surface complexation models comparison of approximations **

** Surface complexation models continuous heterogeneity **

** Surface complexation models diffuse layer model **

** Surface complexation models electrolyte-binding constants **

** Surface complexation models equation **

** Surface complexation models experimental data used for **

** Surface complexation models external surfaces **

** Surface complexation models for multiple component systems **

** Surface complexation models general model aspects for **

** Surface complexation models improvement approaches for **

** Surface complexation models interactions **

** Surface complexation models microscopic data **

** Surface complexation models modeling procedures, consistencies **

** Surface complexation models oxide-solution interface **

** Surface complexation models parameter estimations for **

** Surface complexation models particle geometry **

** Surface complexation models particle morphology **

** Surface complexation models perspectives for **

** Surface complexation models proton uptake **

** Surface complexation models proton-affinity constants **

** Surface complexation models protonation mechanism **

** Surface complexation models reactions **

** Surface complexation models site concentration **

** Surface complexation models solid-solution interface **

** Surface complexation models specific model aspects for **

** Surface complexation models suspension density **

** Surface complexation models temperature dependence **

** Surface complexation models titrations **

** Surface complexation models use of published parameters for **

** Surface complexation reactions in the constant capacitance model **

** Surface models Complex surfaces **

** Surface potential complexation model **

** Swiss model of surface complex **

** Ternary complex model thermodynamic **

** Tetrahedral complexes extended bonding models **

** The Structure of Surface Complexation Models **

** Thermodynamic integration , complex protein model **

** Toward a Model of the Receptor-G Protein Complex **

** Transition metal complexes as molecular models **

** Transition-metal model complexes **

** Transmission line model complex-plane impedance plot **

** Use of surface complex formation model **

** WSCC Model Utility and More Complex Zoning Models **