Preparation from

Prepared from ethyne and ammonia or by dehydration of ethanamide. Widely used for dissolving inorganic and organic compounds, especially when a non-aqueous polar solvent of high dielectric constant is required, e.g. for ionic reactions. [Pg.11]

H2N(CH2)jCOOH, C H,3N02. Prepared from -benzoylaminocapronitrile or from l-hydroxycyclohexylhydroperoxide, m.p. 205 0. Aminocaproic acid is an antifibrinolytic agent, used to treat thrombosis in the deep veins. amiDoethyl alcohol. See ethanolamines. [Pg.29]

CioHi O. White leaflets, with a strong smell and sweet taste, m.p. 22 C, b.p. 235 C. The chief constituent of anise and fennel oils and other essential oils, from which it is manufactured. It can also be prepared from anisole (meihoxybenzene). It is widely used for flavouring pharmaceuticals and dentifrices, and in perfumery. [Pg.34]

M.p. 234-235 C. Hydrolyses to aspartic acid. L-asparagine can be prepared from lupin seedlings, and DL-asparagine is synthesised from ammonia and maleic anhydride. L-asparagine is very widely distributed in plants, being found in all the Leguminosae and Gramineae, and in many other seeds, roots and buds. [Pg.43]

Soluble in water and alcohol. It is a very feeble base. It occurs in beets and mangolds and many other plants, and can conveniently be prepared from beet molasses. [Pg.59]

BMC A very powerful perchlorinating agent (to replace all H by Cl) prepared from S2CI2, SO2CI2 and AICI3. [Pg.62]

Bromobenzene,Cf,HfSr. B.p. 155°C. Prepared from benzene by direct bromination in the presence of a carrier (Ij, Fe, AICI3) or by... [Pg.68]

CgHijClNjOj. Colourless, hygroscopic, m.p. 2I0-212 C (decomp.). Prepared from fi-chloroethyl carbamate and trimethylamine. It has a physiological action similar to that of acetylcholine, but more prolonged, as it is less readily hydrolysed. It is used for intestinal atony following operations, and can be given orally. [Pg.79]

Usually prepared from the corresponding sulphonic acids by alkali fusion, methylation of phenol or from the aminotoluene by treatment with nitrous acid followed by boiling. Both o- and p-cresol are used as end components in azo dyes. [Pg.115]

M.p. I08-5 C. Ordinary DDT contains about 15% of the 2,4 -isomer, and is prepared from chloral, chlorobenzene and sulphuric acid. It is non-phytotoxic to most plants. It is a powerful and persistent insecticide, used most effectively to control mosquitoes in countries where malaria is a problem. It is stored in the bodies of animals and birds. [Pg.125]

Prepared from Clj and [Mc2NC(S)S ]2 or the corresponding thiocarbamoyl chloride. [Pg.135]

Colourless liquid b.p, 28" C. Prepared from (C1CH2CH2)20 with fused KOH in a NHj atmosphere or in ethylene glycol at over 200 C. Readily oxidized by air. slowly polymerizes to a jelly. [Pg.145]

Basic copper ethanoate arsenates(iii) prepared from verdigris (or other basic copper salt), sodium arsenate(m) and ethanoic acid. Used in insecticides for spraying fruit trees. Readily decomposed to soluble arsenic compounds so use is very restricted. [Pg.156]

Epicamphor is prepared from methyl-( + )-bornylene-3-carboxylate, and does not occur naturally. The smell of epicamphor differs slightly from that of camphor. [Pg.159]

Europium(TTI) salts are typical lanthanide derivatives. Europium(ll) salts are pale yellow in colour and are strong reducing agents but stable in water. EuX2 are prepared from EuX -hEu (X=C1, Br, I) or EuFa + Ca EuCl2 forms a dihydrale. EUSO4 is prepared by electrolytic reduction of Eu(III) in sulphuric acid. Eu(II) is probably the most stable +2 stale of the lanthanides... [Pg.170]

C. Insoluble in water, soluble in organic solvents. Flavone occurs naturally as dust on the flowers and leaves of primulas. It has been prepared from o-hydroxyacetophenone and benzaldehyde. [Pg.176]

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