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Organic Chemical Groups

The toxin may undergo microbial degradation either while it is free in soil solution or while it is adsorbed. This could destroy all or part of the toxin, and there is evidence that most of the natural organic chemical groups that contain allelopathic compounds can be metabolized by some microorganism. The possibility always exists, however, that the microbial degradation product from the metabolism of an active toxin will itself be an allelopathic chemical. [Pg.180]

Acetica A process for making acetic acid by the heterogeneous carbonylation of methanol in a bubble column reactor. The catalyst is a rhodium carbonyl iodide, anchored by ion-pairing to a polyvinyl pyridine resin. Developed by Chiyoda Corporation and UOP and first described in 1998. Licensed to Guizhou Crystal Organic Chemical Group, China, in 2002 one plant was under construction in 2005. [Pg.3]

R group An organic chemical group attached to the central carbon atom in an amino acid. [Pg.1176]

Flow-through aquatic toxicity tests data for fathead minnows (Pimephales promelas) and two narcotic organic chemical groups - simple alcohols and ketones - were obtained from literature published by various authors associated with the U.S. ERA Laboratory in Duluth, Minnesota (references in TABLE 1). At least four, and up to seven, LC50 estimates (converted to mol L" ) for different exposure times within the four-day test period were employed. Some of these data points were interpolated from the published time-toxicity graphs. [Pg.222]

A substantial fraction of the named enzymes are oxido-reductases, responsible for shuttling electrons along metabolic pathways that reduce carbon dioxide to sugar (in the case of plants), or reduce oxygen to water (in the case of mammals). The oxido-reductases that drive these processes involve a small set of redox active cofactors , that is, small chemical groups that gain or lose electrons. These cofactors include iron porjDhyrins, iron-sulfur clusters and copper complexes as well as organic species that are ET active. [Pg.2974]

The chemistry of the carbonyl group is probably the single most important aspect of organic chemical reactivity Classes of compounds that contain the carbonyl group include many derived from carboxylic acids (acyl chlorides acid anhydrides esters and amides) as well as the two related classes discussed m this chapter aldehydes and ketones... [Pg.741]

The value of alkyl halides as starting materials for the preparation of a variety of organic functional groups has been stressed many times In our earlier discussions we noted that aryl halides are normally much less reactive than alkyl halides m reactions that involve carbon-halogen bond cleavage In the present chapter you will see that aryl halides can exhibit their own patterns of chemical reactivity and that these reac tions are novel useful and mechanistically interesting... [Pg.971]

Ether (Section 16 1) Molecule that contains a C—O—C unit such as ROR ROAr orArOAr Ethylene (Section 5 1) H2C=CH2 the simplest alkene and the most important industnal organic chemical Ethyl group (Section 2 13) The group CH3CH2—... [Pg.1283]

Although acetyl chloride is a convenient reagent for deterrnination of hydroxyl groups, spectroscopic methods have largely replaced this appHcation in organic chemical analysis. Acetyl chloride does form derivatives of phenols, uncompHcated by the presence of strong acid catalysts, however, and it finds some use in acetylating primary and secondary amines. [Pg.82]

The two most useful supplementary techniques for the light microscope are EDS and FTIR microscopy. Energy dispersed x-ray systems (EDS) and Eourier-transform infrared absorption (ETIR) are used by chemical microscopists for elemental analyses (EDS) of inorganic compounds and for organic function group analyses (ETIR) of organic compounds. Insofar as they are able to characterize a tiny sample microscopically by PLM, EDS and ETIR ensure rapid and dependable identification when appHed by a trained chemical microscopist. [Pg.334]

A variety of mechanisms or forces can attract organic chemicals to a soil surface and retain them there. For a given chemical, or family of chemicals, several of these mechanisms may operate in the bonding of the chemical to the soil. For any given chemical, an increase in polarity, number of functional groups, and ionic nature of the chemical can increase the number of potential sorption mechanisms for the chemical. [Pg.221]

Tyn-Calus This correlation requires data in the form of molar volumes and parachors = ViCp (a property which, over moderate temperature ranges, is nearly constant), measured at the same temperature (not necessarily the temperature of interest). The parachors for the components may also be evaluated at different temperatures from each other. Quale has compiled values of fj for many chemicals. Group contribution methods are available for estimation purposes (Reid et al.). The following suggestions were made by Reid et al. The correlation is constrained to cases in which fig < 30 cP. If the solute is water or if the solute is an organic acid and the solvent is not water or a short-chain alcohol, dimerization of the solute A should be assumed for purposes of estimating its volume and parachor. For example, the appropriate values for water as solute at 25°C are = 37.4 cmVmol and yn = 105.2 cm g Vs mol. Finally, if the solute is nonpolar, the solvent volume and parachor should be multiplied by 8 Ig. [Pg.597]

An EB-curable struetural adhesive formulation usually eonsists of one or more crosslinkable oligomeric resins or prepolymers, along with such additives as reactive diluents, plasticizers, and wetting agents. The oligomer is an important component in terms of the development of mechanical properties. The adhesive and cohesive properties depend on the crosslink density, chemical group substitution, and molecular organization within the polymer matrix. Adhesion is achieved... [Pg.1012]

Originally the chemical industry was inorganic in the 1960s organic chemicals (means they contain carbon) came into prominence with the compounds benzene, phenol, ethylene, and vinyl chloride. The organic chemicals benzene, phenol, toluene, and the xylenes compose the aromatic group. [Pg.269]

Hindustan Organic Chemicals (India) Huntsman Chemical Huntsman ICI Group (UK)... [Pg.46]


See other pages where Organic Chemical Groups is mentioned: [Pg.160]    [Pg.21]    [Pg.572]    [Pg.62]    [Pg.733]    [Pg.255]    [Pg.574]    [Pg.306]    [Pg.1209]    [Pg.130]    [Pg.160]    [Pg.21]    [Pg.572]    [Pg.62]    [Pg.733]    [Pg.255]    [Pg.574]    [Pg.306]    [Pg.1209]    [Pg.130]    [Pg.57]    [Pg.8]    [Pg.652]    [Pg.3]    [Pg.391]    [Pg.17]    [Pg.56]    [Pg.117]    [Pg.383]    [Pg.368]    [Pg.344]    [Pg.123]    [Pg.421]    [Pg.603]    [Pg.680]    [Pg.972]    [Pg.239]    [Pg.197]    [Pg.405]    [Pg.1]    [Pg.57]   


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Chemical groups

Organic groups

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