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Synthetic pesticides

The reaction of enamines with iminium salts provides an alternative route to Mannich bases which are an attractive class of compounds, since they have found many applications (synthesis of drugs, pesticides, synthetic building blocks, etc.). This methodology has several basic advantages compared to the classic aminomethylation procedure15-18-24 ... [Pg.775]

The satnrated hydrocarbons are used in industry as fuels, lubricants, and solvents. After nndergoing processes of alkylation, isomerization, and dehydrogenation, they also act as starting materials for the synthesis of paints, protective coatings, plastics, synthetic rnbber, resins, pesticides, synthetic detergents, and a wide variety of petrochemicals. The fnels, lubricants, and solvents are mixtures that may contain many different hydrocarbons... [Pg.32]

A large number of individual chemicals have been demonstrated to be endocrine disruptors. EDCs include pesticides, synthetic hormones, heavy metals, plasticizers, and other industrial chemicals. Table 22.1... [Pg.361]

Stevens JL, Northcott GL, Stem GA, Tomy GT, Jones KC (2003) PAHs, PCBs, PCNs, organochlorine pesticides, synthetic musks, and polychlorinated n-alkanes in U.K. sewage sludge survey results and implications. Environ Sci Technol 37 462 67... [Pg.104]

Vast amounts of chemicals are produced each year and serve as raw materials for a variety of uses, including the manufacture and processing of metals, plastics, fertilizers, pharmaceuticals, fuels, paints, adhesives, pesticides, synthetic fibers, and microprocessor chips. T TABLE 1.1 lists the top eight chemicals produced in the United States. [Pg.6]

Organophosphorus Derivatives. Neopentyl glycol treated with pyridine and phosphorus trichloride in anhydrous dioxane yields the cycHc hydrogen phosphite, 5,5-dimethyl-l,3-dioxaphosphorinane 2-oxide (2) (32,33). Compounds of this type maybe useful as flameproofing plasticizers, stabilizers, synthetic lubricants, oil additives, pesticides, or intermediates for the preparation of other organophosphoms compounds (see Flame retardants Phosphorus compounds). [Pg.373]

These chemorational techniques have generated great interest in, and high expectations for, the acceleration of development of innovative pesticides. However, many purportedly successful appHcations of QSAR procedures have reHed on the quaHtative insights traditionally associated with art-based pesticide development programs. Retrospective QSAR analyses have, however, been helpful in identifying the best compounds for specific uses (17). Chemorational techniques have also found some appHcations in the development of pesticides from natural product lead compounds, the best known examples being the synthetic pyrethroid insecticides (19) modeled on the plant natural product, pyrethmm. [Pg.39]

Cyclic Hydrocarbons. The cyclic hydrocarbon intermediates are derived principally from petroleum and natural gas, though small amounts are derived from coal. Most cycHc intermediates are used in the manufacture of more advanced synthetic organic chemicals and finished products such as dyes, medicinal chemicals, elastomers, pesticides, and plastics and resins. Table 6 details the production and sales of cycHc intermediates in 1991. Benzene (qv) is the largest volume aromatic compound used in the chemical industry. It is extracted from catalytic reformates in refineries, and is produced by the dealkylation of toluene (qv) (see also BTX Processing). [Pg.367]

Methyl- and dimethylnaphthalenes are contained in coke-oven tar and in certain petroleum fractions in significant amounts. A typical high temperature coke-oven coal tar, for example, contains ca 3 wt % of combined methyl- and dimethylnaphthalenes (6). In the United States, separation of individual isomers is seldom attempted instead a methylnaphtha1 ene-rich fraction is produced for commercial purposes. Such mixtures are used for solvents for pesticides, sulfur, and various aromatic compounds. They also can be used as low freezing, stable heat-transfer fluids. Mixtures that are rich in monomethyinaphthalene content have been used as dye carriers (qv) for color intensification in the dyeing of synthetic fibers, eg, polyester. They also are used as the feedstock to make naphthalene in dealkylation processes. PhthaUc anhydride also can be made from m ethyl n aph th al en e mixtures by an oxidation process that is similar to that used for naphthalene. [Pg.487]

Other Uses. Other appHcations for sodium nitrite include the syntheses of saccharin [81-07-2] (see Sweeteners), synthetic caffeine [58-08-2] (22), fluoroaromatics (23), and other pharmaceuticals (qv), pesticides (qv), and organic substances as an inhibitor of polymerization (24) in the production of foam blowing agents (25) in removing H2S from natural gas (26) in textile dyeing (see Textiles) as an analytical reagent and as an antidote for cyanide poisoning (see Cyanides). [Pg.201]

Alkylphenol ethoxylates are chemically stable and highly versatile surfactants that find appHcation in a large variety of industrial products including acid and alkaline metal cleaning formulations, hospital cleaners, herbicides (qv) and insecticides, oil-weU drilling fluids, synthetic latices, and many others (see Disinfectants AND antiseptics Elastop rs, synthetic Insect control technology Metal surface treati nts Pesticides Petroleum, drilling fluids). [Pg.248]

Aerobic, Anaerobic, and Combined Systems. The vast majority of in situ bioremediations ate conducted under aerobic conditions because most organics can be degraded aerobically and more rapidly than under anaerobic conditions. Some synthetic chemicals are highly resistant to aerobic biodegradation, such as highly oxidized, chlorinated hydrocarbons and polynuclear aromatic hydrocarbons (PAHs). Examples of such compounds are tetrachloroethylene, TCE, benzo(a)pyrene [50-32-8] PCBs, and pesticides. [Pg.170]

Toxic Organic Materials. The term toxic organics iacludes synthetic organic compounds such as pesticides, herbicides, PCBs, and chlotinated hydrocarbons, usually produced by the manufacturers and formulators of these products. [Pg.226]

Chloroformates are versatile, synthetic intermediates, based on the affinity of the chlorine atoms for active hydrogen atoms. Chloroformates should be considered as intermediates for syntheses of pesticides, perfumes, dmgs, polymers, dyes, and other chemicals. Some of these products, eg, carbonates, are used as solvents, plastici2ers, or as intermediates for further synthesis. A significant use of chloroformates is for conversion to peroxydicarbonates, which serve as free-radical initiators for the polymeri2ation of vinyl chloride, ethylene, and other unsaturated monomers. The most widely used percarbonate initiators are diisopropyl peroxydicarbonate (IPP), di-2-ethyIhexylperoxydicarbonate (2-EHP), and di-j -butylperoxydicarbonate (SBP). The following Hst includes most of the commercially used percarbonates. [Pg.41]

Some of these compounds could be considered as dietary additives, but various other terms, including pesticides, can also be used. They can have beneficial effects on the environment and this aspect will be discussed later. The ionophore monensin, which is an alicyclic polyether (Figure 1), is a secondary metabolite of Streptomyces and aids the prevention of coccidiosis in poultry. Monensin is used as a growth promoter in cattle and also to decrease methane production, but it is toxic to equine animals. " Its ability to act as an ionophore is dependent on its cyclic chelating effect on metal ions. ° The hormones bovine somatotropin (BST) and porcine somatotropin (PST), both of which are polypeptides, occur naturally in lactating cattle and pigs, respectively, but can also be produced synthetically using recombinant DNA methods and administered to such animals in order to increase milk yields and lean meat production. "... [Pg.87]


See other pages where Synthetic pesticides is mentioned: [Pg.147]    [Pg.33]    [Pg.14]    [Pg.87]    [Pg.212]    [Pg.63]    [Pg.110]    [Pg.201]    [Pg.1162]    [Pg.1201]    [Pg.1136]    [Pg.2645]    [Pg.4555]    [Pg.1038]    [Pg.86]    [Pg.2213]    [Pg.147]    [Pg.33]    [Pg.14]    [Pg.87]    [Pg.212]    [Pg.63]    [Pg.110]    [Pg.201]    [Pg.1162]    [Pg.1201]    [Pg.1136]    [Pg.2645]    [Pg.4555]    [Pg.1038]    [Pg.86]    [Pg.2213]    [Pg.414]    [Pg.425]    [Pg.502]    [Pg.383]    [Pg.66]    [Pg.75]    [Pg.125]    [Pg.37]    [Pg.458]    [Pg.47]    [Pg.27]    [Pg.38]    [Pg.38]    [Pg.62]    [Pg.43]   
See also in sourсe #XX -- [ Pg.70 ]




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