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Complex Products

The Zaporozhje Motor-Sich plant manufactures aircraft engines for all the CIS countries. One of the world largest aerospace concerns - Pivdenny - is functioning in Dniepropetrovsk Kharkov turbines are known in many countries. A high-capacity chemical production complex is located in the city of Kaloush. [Pg.966]

Research-and-production complex Institute for Single Crystals of National academy of sciences of Ukraine Lenin Ave.60, Kharkov, Ukraine, 61001 eksperiand isc.kharkov.com -Research-and-production complex Spectron , St-Petersburg... [Pg.147]

Berghuis, A.M., et al. Structure of the GDP-Pi complex of Gly203-Ala Giai a mimic of the ternary product complex of Ga-catalyzed GTP hydrolysis. Structure 4 1277-1290, 1996. [Pg.280]

Product complex 7 as well as the free product 3 are much less reactive towards further electrophilic substitution as is the starting material thus the formation of polyacylated products is not observed. If the starting material bears one or more non-deactivating substituents, the direction of acylation can be predicted by the general rules for aromatic substitution. [Pg.117]

Fuel Cells Chemical. -High output -Stable current -Water supply as a sub-product. -Complex design -Bulk -Life-span is limited by onboard fuel supply. Used in some piloted spacecraft for short duration missions. [Pg.1078]

Li, Z., and Meighen, E. A. (1994). The turnover of bacterial luciferase is limited by a slow decomposition of the ternary enzyme-product complex of luciferase, FMN, and fatty acid. J. Biol. Chem. 269 6640-6644. [Pg.415]

The aldol reaction of iron-acetyl enolates such as 1 with aldehydes creates a new stereogenic center at the (S-carbon of the product complexes. [Pg.532]

Enzyme (A) + substrate (B) o enzyme-substrate complex (AB) o enzyme-product complex (AC) enzyme (A) + product (C)... [Pg.140]

Circumstances of control specifically for visual inspections, several conditions (e.g., amount of light, time for judgment, disturbing noise, visual product complexity) contribute to how well people are able to judge quality based on visual characteristics like color. [Pg.556]

THE NEW VISION INCLUDES A SAFE, EFFICIENT AND RELIABLE PRODUCTION COMPLEX FOR NUCLEAR MATERIALS FOR IMPORTANT NATIONAL PROGRAMS SUCH AS DEFENSE, SPACE EXPLORATION, MEDICINE, INDUSTRIALNEEDS AND RESEARCH,INCLUDINGPRODUCTION AND STUDY OF TRANS-SEABORGIUM ELEMENTS. [Pg.72]

A safe, efficient and reliable production complex for nuclear materials for national programs such as defense, space exploration, medicine, industrial applications and research - including the production and study of trans-Scaborgium elements... [Pg.75]

When other lithium reagents such as LiMe were used in these reactions, product complexes, observable at low temperatures, could not be isolated. [Pg.182]

A steady-state kinetics study for Hod was pursued to establish the substrate binding pattern and product release, using lH-3-hydroxy-4-oxoquinoline as aromatic substrate. The reaction proceeds via a ternary complex, by an ordered-bi-bi-mechanism, in which the first to bind is the aromatic substrate then the 02 molecule, and the first to leave the enzyme-product complex is CO [359], Another related finding concerns that substrate anaerobically bound to the enzyme Qdo can easily be washed off by ultra-filtration [360] and so, the formation of a covalent acyl-enzyme intermediate seems unlikely in the... [Pg.169]

Principle The determination of acetylthiocholine hydrolysis, based on the absorbance at 412 nm of the yellow product - complex of thiocholine with Ellman reagent. [Pg.155]

The kinetics and mechanisms of template reactions are rarely studied in depth - they are often merely assumed to be genuine template reactions rather than a metal-activated reaction at a coordinated ligand. The best evidence for a true template mechanism is the isolation and characterization of intermediates with both reactants and with the macrocyclic product complexed with the template cation. [Pg.289]

The [Ni°(CDT)] product complex 8b is formed via reductive elimination under ring closure starting from the dodecatrienediyl-Ni11 complex. The formation of the several isomers of CDT occurs via competing paths for reductive elimination that involves different stereoisomers. Displacement of the cyclotrimer product in subsequent consecutive substitution steps with butadiene, which is supposed to take place without a significant barrier, regenerates the [Ni°( butadiene) J active catalyst thus completing the catalytic cycle. [Pg.174]

See other pages where Complex Products is mentioned: [Pg.274]    [Pg.348]    [Pg.532]    [Pg.165]    [Pg.197]    [Pg.474]    [Pg.352]    [Pg.531]    [Pg.364]    [Pg.437]    [Pg.120]    [Pg.16]    [Pg.77]    [Pg.324]    [Pg.157]    [Pg.334]    [Pg.274]    [Pg.276]    [Pg.131]    [Pg.14]    [Pg.98]    [Pg.441]    [Pg.751]    [Pg.231]    [Pg.656]    [Pg.44]    [Pg.115]    [Pg.187]   
See also in sourсe #XX -- [ Pg.140 ]



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Addition Products of Dinitrogen to Transition Metal Complexes

Ammonia production complexes

Applications of Palladium and Nickel Complexes in Natural Product Synthesis

Blow molding complex products

Carbocyclizations complex polycyclic products

Cobalt complexes in hydrogen production from water

Complex Products and Valencies

Complex function scalar product

Complex inner product

Complex mixtures of natural products

Complex organic production in ices

Complex product catalyst

Complex product mixtures

Complex production

Complex reaction products

Complex rotation method product

Complex scalar product

Complex shaped-reinforced thermoplastic production

Complex, storage products derived from

Complexation, mechanochemical products

Complexes production and uses

Complexing agents biological production

Copper complex production rate

Diels-Alder Reaction structurally complex natural product

Enzyme-product complex

Euclidean-style Geometry in Complex Scalar Product Spaces

Immune Globulins, Other Complex Biologic Products

Inventory complex reaction products

Iron complexes oxidized reaction products

Large-scale Production of the M6L4 Complex

Manganese complexes oxygen production from water

Modem organic synthesis complex natural products

Modern organic synthesis complex natural products

NP-1, a Complex Natural Product

Natural complex scalar product

Natural products molecular complexity

Natural products structural complexity

Niobium complexes reduction products

Osmium complexes oxidized reaction products

Palladium complexes in photochemical nitrogen production from water

Palladium®) complexes carbonylation, natural products synthesis

Photolytic products, metal-carbonyl complexes

Product complex numbers

Product complexity

Product complexity

Product design and supply chain complexity

Product isolation reduction with complex hydrides

Production complexity management

Production of More Complex Oligosaccharides

Productive intermediates dinucleotide complex

Productive intermediates product complex

Productive intermediates transition state complex

Ribonuclease product complex

Ruthenium complex catalysts product distribution

Ruthenium complexes, oxidized reaction products

Scalar product complex-valued

Synthesis complex natural product

Synthesis of complex natural products

The Complex Product

Titanium complexes in hydrogen production from water

Tris complex dioxygen production

Zirconium Complexes for the Production of Polycarbonates

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