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Structure of complex

Mujica A and R J Needs 1993. First-principles Calculations of the Structural Properties, Stability, aind Band Structure of Complex Tetrahedral Phases of Germanium ST12 and BC8. Physical Review B48 17010-17017. [Pg.181]

Similar treatments can be used for all sorts of two-dimensional problems for calculating the plastic collapse load of structures of complex shape, and for analysing metal-working processes like forging, rolling and sheet drawing. [Pg.114]

P. F. Kelly and J. D. Woollins, The Preparation and Structure of Complexes Containing Simple Inorganic Sulfur-Nitrogen Ligands, Polyhedron, 5, 607 (1986). [Pg.13]

The discovery of the ci-helix structure was only one of many achievements that led to Pauling s Nobel Prize in chemistry in 1954. The official citadon for the prize wa.s for his research into the nature of die chemical bond and its application to die elucidadon of the structure of complex substances. ... [Pg.167]

The structure of complexes containing the tf-Sc2 ligand have recently been determined and, where appropriate, compared with analogous rp--Sx. tJ -Pi and t) As2 complexes (p. 587). Examples are in F ig. 16.3 and the original papers should be consulted for further details. " Complexes... [Pg.758]

A Semi-Empirieal Theory of the Electronic Spectra and Electronic Structure of Complex Unsaturated Molecules R. Pariser and R. G. Parr... [Pg.136]

Synthesis, reactions and structures of complexes of metal carbonyls and cy-clopentadienyl carbonyls with Te-heterocycles as ligands 99UK454. [Pg.275]

Although the aqua nickel(II) complex A was confirmed to be the active catalyst in the Diels-Alder reaction, no information was available about the structure of complex catalyst in solution because of the paramagnetic character of the nickel(II) ion. Either isolation or characterization of the substrate complex, formed by the further complexation of 3-acryloyl-2-oxazolidinone on to the l ,J -DBFOX/ Ph-Ni(C104)2 complex catalyst, was unsuccessful. One possible solution to this problem could be the NMR study by use of the J ,J -DBFOX/Ph-zinc(II) complex (G and H, Scheme 7.9) [57]. [Pg.257]

BurJ82 Burdett, J. K. Predictions of the structure of complex solids. Adv. Chem. Phys. 49 (1982) 47-113. [Pg.138]

This model of the electronic structure of complex ions explains why high-spin and low-spin complexes occur only with ions that have four to seven electrons (d4, d5, d6, d7). With three or fewer electrons, only one distribution is possible the same is true with eight or more electrons. [Pg.420]

Pariser, R., and Parr, R. G., 1. J. Chem. Phys. 21, 466 II. J. Chew. Phys. 21, 767, "A semi-empirical theory of the electronic spectra and electronic structure of complex unsaturated molecules."... [Pg.336]

Research and development into polymer electrolyte battery systems continues, yet many unsolved and controversial issues, particularly relating to the inadequate understanding and control of ion dissociation and the relative mobilities of the ions, remain. Modem computational resources now allow the structures of complex systems such as polymer electrolytes to be simulated and evaluated. Computer simu-... [Pg.520]

Figure 3.33 The structure of complexes of tridentate amines such as diethylenetriamine. Figure 3.33 The structure of complexes of tridentate amines such as diethylenetriamine.
The molecular structures of complexes of the platinum metals with tertiary... [Pg.217]

Semi-empirical calculation of the electronic structures of complexes. F. A. Cotton, Rev. Pure Appl. Chem., 1966,16,175-184 (39). [Pg.64]

Spectra and electronic structure of complexes with sulphur-containing ligands. C. K. Jorgensen, Inorg. Chim. Acta, Rev., 1968, 2, 65-88 (295). [Pg.65]

The striking feature of many coordination compounds is that they are colored or paramagnetic or both. How do these properties arise To find out, we need to understand the electronic structures of complexes, the details of the bonding, and the distribution of their electrons. [Pg.799]

Linus Pauling, The Principles Determining the Structure of Complex Ionic Crystals,... [Pg.18]

THE PRINCIPLES DETERMINING THE STRUCTURE OF COMPLEX IONIC CRYSTALS... [Pg.282]

The Principles Determining the Structure of Complex Ionic Crystals.—The success of the coordination method in predicting structures for brookite and topaz has led to the proposal of a set of principles governing the structure of a rather extensive class of complex ionic crystals. [Pg.286]

A set of principles governing the structure of complex ionic crystals, based upon the assumption of a coordinated arrangement of anions about each cation at the comers of an approximately regular polyhedron, is formulated with the aid of considerations based upon the crystal energy. Included in the set is a new electrostatic principle which is of wide application and considerable power. [Pg.298]

Photo 14 Linus Pauling in 1950, showing his still evident enthusiasm for the structures of complex minerals (Chapters 5, 6), in this case possibly beryl. In a typical pose, he holds a specimen of the mineral and stands beside an atomic model. The enthusiasm for minerals continued even though Pauling had by this time largely moved on to studies of biological macromolecules (Part III). [Pg.453]

See other pages where Structure of complex is mentioned: [Pg.143]    [Pg.749]    [Pg.215]    [Pg.391]    [Pg.30]    [Pg.170]    [Pg.408]    [Pg.416]    [Pg.417]    [Pg.419]    [Pg.421]    [Pg.776]    [Pg.799]    [Pg.814]    [Pg.283]    [Pg.283]    [Pg.285]    [Pg.287]    [Pg.289]    [Pg.293]    [Pg.295]    [Pg.297]    [Pg.303]    [Pg.505]    [Pg.516]   
See also in sourсe #XX -- [ Pg.220 ]



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Biogenesis and Structural Dynamics of the Photosystem II Complex

Bonding and Structure of Metal-Alkyne Complexes

Complex Structures with Oxides of Mo, W, V, Nb, Ta, Ti

Complex Structures—A Preview of Coming Attractions

Complexes and the Structure of Polysaccharides

Complexity of structure

Complexity of structure

Components of a complex structure

Crystal Structures of the Zn(II) Complexes

Electronic Structure of Complex Ions

Electronic structure of complex molecules

Electronic structures of endohedral complexes theory

Formation and Structure of Complexes

Formation and Structure of Pendant-Type Polymer-Metal Complexes

Host-guest complexes with a range of different structures

Illustrating Structural and Electronic Properties of Complex Nanocatalysts

Lipases by Phosphonates and the 3-D Structures of Lipase-inhibitor Complexes

Liquid Crystal Honeycombs and Other Complex Phase Structures of T-Shaped Ternary Amphiphiles

Molecular Structures of Transition Metal Complexes

NHC Complexes of Main Group Elements Novel Structures, Reactivity, and Catalytic Behavior

Niobium complexes of butterfly structure

Noncollinear Magnetic Structure of Ln Complexes

On Safety, Systems, Complexity. .. and the Structure of this Chapter

Photoexcited Structure of a Diplatinum Complex

Photophysical Properties of Lanthanide Complexes with Asymmetric Dodecahedron Structures

Precursor Complexes of Known Structure

Quantum Mechanical Modelling - Equilibrium Structures of Isolated Metal Complexes

Single Helical Structures (V-Complexes) of Amylose

Solid State Structures of Cadmium Complexes with Relevance for Biological Systems

Stoichiometry the algebraic structure of complex chemical reactions

Structural Characterisation of Nitrosyl Complexes

Structural Chemistry of Lanthanide Alkoxide Complexes

Structural Chemistry of Organo-Transition Metal Complexes

Structural Chemistry of Rare Earth Complexes with Amino Acids

Structural Chemistry of Rare Earth Complexes with Polyaminopolycarboxylic Acids

Structural Classification of Dioxygen Complexes

Structural Probes of Complex Fluids

Structural Theory of Morphism Complexes

Structural and NMR Studies of Dihydrogen Complexes

Structural and spectroscopic consequences of a chemical change in an iron complex

Structure and Function of the Py-Complex

Structure and bonding of a complexes

Structure and function of the isolated complex

Structure and stereochemistry of the substrate-coenzyme bond in ternary complexes

Structure of BF3 Complexes

Structure of Chiral Ferrocenylphosphines and their Transition-Metal Complexes

Structure of Cobalt Hexaamine Complexes

Structure of Complexes in Solution

Structure of Complexes in Solution Derived from X-Ray Diffraction

Structure of Cyclopentadienyl Complexes

Structure of Cytochrome bc Complex from Bovine Heart Mitochondria

Structure of Enolate Complexes

Structure of Halogen-Bonded Complexes

Structure of Hydrogen-Bonded Complexes

Structure of Metal Complexes Containing Arenediazonium Ions as Ligands

Structure of complex solids

Structure of enzyme-substrate complexes

Structure of polyelectrolyte complexes

Structure of polymer complex

Structure of the H-Related Complexes

Structure of the complex with aztreonam

Structure, Bonding, and Activation of Dihydrogen Complexes

Structures of Carbene and Carbyne Complexes

Structures of Complex Compounds from Five- and Six-Membered Hetarenes

Structures of Coordination Complexes

Structures of Metal-Silyl Complexes

Structures of Phosphido Complexes

Structures of Polymer-Heme Complexes

Structures of Sandwich Complexes

Structures of Silylene Complexes

Supermolecular Structure of Intermacromolecular Complexes

Synthesis, Structure, and Properties of Bipy Complexes

The Electronic Structures of Transition Metal Complexes

The Structural Complexity of Organic Molecules

The Structure Factor of Flowing Complex Liquid Mixtures

The Structure of Cation-Carbohydrate Complexes

The Structure of Surface Complexation Models

The Structures of Complex Solids

The structural complexity of biomolecules

The structure of complex atoms

The structure of finite complex ions

The structures of complex ionic crystals

X-Ray Structure of the Complex with a Bridged Monobactam

X-ray structures titanium tetrachloride complex of ethyl lactate

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