Hexa preparation

Vanadium tetrafluoride, VF4. Green solid prepared HF on VCI4. Forms hexa-fluorovanadate(IV) ion (VFa) ". VOF2 formed by hydrolysis. 

J The hexa.acetyl derivative, m.p. 121°, may be prepared as follows. Boil under reflux 1 part of mannitol with 5 parts by weight of acetic anhydride and 1 part of anhydrous sodium acetate or with a little anhydrous zinc chloride for 15-20 minutes, pour into excess of water, stir the mixture until the oil has solidifled, and then recrystallise from methylated spirit. 

Tosylates of pentaerythritol and the higher homologues can be converted to their corresponding tetra-, hexa-, or octaazides by direct reaction of sodium azide (36), and azidobenzoates of trimethyl olpropane and dipentaerythritol are prepared by reaction of azidobenzoyl chloride and the alcohols in pyridine medium (37). 

Hexa.cya.no Complexes. Ferrocyanide [13408-63 ] (hexakiscyanoferrate-(4—)), (Fe(CN) ) , is formed by reaction of iron(II) salts with excess aqueous cyanide. The reaction results in the release of 360 kJ/mol (86 kcal/mol) of heat. The thermodynamic stabiUty of the anion accounts for the success of the original method of synthesis, fusing nitrogenous animal residues (blood, horn, hides, etc) with iron and potassium carbonate. Chemical or electrolytic oxidation of the complex ion affords ferricyanide [13408-62-3] (hexakiscyanoferrate(3—)), [Fe(CN)g] , which has a formation constant that is larger by a factor of 10. However, hexakiscyanoferrate(3—) caimot be prepared by direct reaction of iron(III) and cyanide because significant amounts of iron(III) hydroxide also form. Hexacyanoferrate(4—) is quite inert and is nontoxic. In contrast, hexacyanoferrate(3—) is toxic because it is more labile and cyanide dissociates readily. Both complexes Hberate HCN upon addition of acids. 

Hexamethylenetetramine. Hexa, a complex molecule with an adamantane-type stmcture, is prepared from formaldehyde and ammonia, and can be considered a latent source of formaldehyde. When used either as a catalyst or a curative, hexa contributes formaldehyde-residue-type units as well as benzylamines. Hexa [100-97-0] is an infusible powder that decomposes and sublimes above 275°C. It is highly soluble in water, up to ca 45 wt % with a small negative temperature solubiUty coefficient. The aqueous solutions are mildly alkaline at pH 8—8.5 and reasonably stable to reverse hydrolysis. 

The bicyclo[2.2.0]hexa-2,5-diene ring system is a valence isomer of the benzene ring and is often referred to as Dewar benzene. After many attempts to prepare Dewar benzene derivatives failed, a pessimistic opinion existed that all such efforts would be finitless because Dewar benzene would be so unstable as to immediately revert to benzene. Then, in 1962, van Tamelen and Pappas isolated a stable Dewar benzene derivative by photolysis of 1,2,4-tri(/-butyl)benzene. ... 

In 1974, Vogtle and Weber disclosed the preparation of a class of molecules which they reported showed remarkable phenomenological parallelisms to the mode of food capture by an octopus using its suction pads . Such molecules have also been referred to as hexa-hosts (see below). 

In the early work, benzene formed the basis of a variety of multi-armed structures. Analogs bearing from 2—6 arms were prepared and compared for cation binding ability. The only indication of mode of synthesis for the hexa-substituted benzene derivative is that it was obtained on reaction of benzene-hexakis(methanethiol) and l-bromo-3,6,9-trioxatridecane . The reaction is illustrated in Eq. (7.6), below, devoid of reaction conditions and yields which were not specified. 

Tetrakis(trifluoromethyl)dithietane is generated by dimerization of hexa-fluorothioaeetone which is prepared in situ from hexafluoiopropylene with potassium fluoride and sulfur [189] or with sulfur and antimony pentafluoride [190] (equation 27)... 

An example of this strategy is the preparation of a synthetic combinatorial library of hexapeptides. The maximum number of sequence combinations for hexapeptides is 20 or 64,000,000. One approach to simplify preparation and screening possibilities for such a library is to specify the first two amino acids in the hexa-... 

The three fluorides CIF5, Brp5 and IF5 are the only known hexa-atomic interhalogens, and IF7 is the sole representative of the octa-atomic class. The first to be made (1871) was IF5 which is the most readily formed of the iodine fluorides, whereas the more vigorous conditions required for the others delayed the synthesis of BrFs and IF7 until 1930/1 and CIF5 until 1962. The preferred method of preparing all four compounds on a large scale is by direct fluorination of the element or a lower fluoride ... 

Homoesermetol (1,4a,9-trimethyl-6-methoxy-1,2,3,4,4a, 9a-hexa-hydro-a-carboline (89 R = CH3, R = OCH3) may be prepared in a manner analogous to that used for the preparation of eseroline. Thus, when the 3-y-oxindolylpropylamine 88 (R = CH3, R = OCH3) is reduced with sodium in butanol, homoesermetol is obtained. Reductive cycbzation of 88 (R = R = H) with lithium aluminum hydride has recently been reported. 

Most of the substitution reactions of di-, tetra, and hexa-hydro-carbolines and of their oxo derivatives are similar to those of the parent indole or indolenine derivatives. Nitration and bromination of harma-line (l-methyl-3,4-dihydro-j8-carbolme) are referred to in Section IV, A, 1. Sulfonation and azO COupling ° proceed as expected for indole derivatives. The preparation of chlorinated and iodinated derivatives of 6-nitroharmaline has been reported,but their structures have not been established. 

Chiral 3-alkylpiperidines were prepared through perhydropyrido[2,I-Z)][],3]benzoxazines (99TL242I, 00TA2809). 5u-Pentyl-5u,6,7,8,9,H-hexa-hydropyrido[2,I-Z ][l,3]benzoxazin-9-ones 31, 33 (R CsHn) and 34 were used in the total synthesis of racemic and natural (—)-(R) forms of adalinine alkaloid (99SL37, 99TL739). 

A crystalline 5,5 -diene, or bis (vinyl ether), derivative of sucrose has been prepared from 6,6 -dideoxy- 6,6 -diiodo-sucrose hexa-acetate, derived from the 6,6 -ditosylate, by treatment with silver fluoride in pyridine (26). 

In addition lo its use in making resins and adhesives, phenol is also the starting material for the synthesis of chlorinated phenols and the food preservatives BHT (butylated hvdroxytoiuene) and BHA (butylated bydroxyanisole). Penta-chlorophenol, a widely used wood preservative, is prepared by reaction of phenol with excess CI2- The herbicide 2,4-D (2,4-dichlorophenoxyacetjc acid) is prepared from 2,4-dichlorophenol, and the hospital antiseptic agent hexa-chlorophene is prepared from 2,4,5-trichlorophenol. 

Complex fluorotantalates of all other alkali metals can be prepared successfully using the same method, and appropriate adjustment of the initial mixture composition enables to obtain hexa-, hepta- and octafluorotantalates [117,118]. 

The corresponding tri- and hexa-fluoroacetylacetonates may be similarly prepared. The stability of the acetylacetonate is such that not only can it be resolved on passage through a column of D-lactose, but the enantiomers retain their integrity on nitration or bromination. 

These salts can be made easily since tetrafluoroboric acid (HBF4) and hexa-fluorophosphoric acid (HPF6) are commercially available. However, the main advantage of the diazonium salts with the anions of these acids is their stability, which is significantly higher than that of probably all other diazonium salts. 4-Nitrobenzenediazonium tetrafluoroborate is nowadays even a commercial product. Preparative diazotization methods with these two acids can be found in Organic Syntheses (tetrafluoroborate Starkey, 1943 hexafluorophosphate Rutherford and Redmont, 1973). 

Carboxylic acids, a-bromination of 55, 31 CARBOXYLIC ACID CHLORIDES, ketones from, 55, 122 CARBYLAMINE REACTION, 55, 96 Ceric ammonium nitrate [Ammonium hexa mtrocerate(IV)[, 55, 43 Chlorine, 55, 33, 35, 63 CHROMIUM TRIOXIDE-PYRIDINE COMPLEX, preparation in situ, 55, 84 Cinnamomtnle, a-phenyl- [2-Propeneni-tnle 2,3-diphenyl-], 55, 92 Copper(l) iodide, 55, 105, 123, 124 Copper thiophenoxide [Benzenethiol, copper(I) salt], 55, 123 CYCLIZATION, free radical, 55, 57 CYCLOBUTADIENE, 55, 43 Cyclobutadieneiron tricarbonyl [Iron, tn-carbonyl(r)4-l,3-cyclo-butadiene)-], 55,43... 

Hexa-fluorobisphenol A (HFBPA) based polysulfone and poly(arylene ether phosphine oxide) were prepared by nucleophilic aromatic substitution similar to that of bisphenol-A-based polysulfone and poly(arylene ether phosphine oxide).11... 

Using the preorganized bis(amidinate) ligands featuring 9,9-dimethyl-xanthene backbones, several new dizirconium complexes have been prepared. For example, hexa(amido) complexes were obtained by reaction of the ligands with 2 equivalents of Zr(NMe2)4 (Scheme 212). ... 

Preparation by hydrolysis of phytin isolated from maize steep water [Ca- and Mg-salts of phytic acid (inositol hexa(dihydrogen phosphate))] with diluted sulfuric acid or with water under pressure. 

To investigate the possibility of preparing uniquely substituted hexa-chlorodibenzo-p-dioxins, several experiments were performed under Ullmann conditions. Although condensation of potassium 2-bromo-4-chlorphenate occurred readily, several 2,6-substituted phenates failed to... 

Hexa(oligophenyl)benzenes (e. g. 31 or 33) present one possible approach to the realization of this aim. Two efficient synthetic routes have been elaborated for the preparation of hexa(terphenyl)- and hexa(quaterphenyl)benzene. The first, involving palladium-catalyzed trimerization of diarylacetylenes [54] as the key step, was demonstrated by the synthesis of a hexakis-alkylated hexa(terphenyl)benzene derivative 31 from the corresponding bis(terphenyl) acetylene (32). The peripheral tert-alkyl substituents serve to solubilize the molecule. 

N-Acetals of aldehydes can be readily prepared by reaction of aldehydes with tri-methylsilylated secondary amines. Thus, formaldehyde is converted by diethylami-notrimethylsilane 146, in 55% yield, into the silylated 0,N-acetal 422, which reacts with a further equivalent of 86 to give 90% of the N,N-acetal 423 and 94% hexa-methyldisiloxane 7 [41, 42]. On heating of diethylamine with formaldehyde and HMDS 2, 22% 422, 70% of the N,N-acetal 423, HMDSO 7, and ammonia are obtained [42] (Scheme 5.10). 

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