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Highly-substituted

Roberts G G, MoGinnity M, Barlow W A and Vinoett P S 1979 Eleotroluminesoenoe, photoluminesoenoe and eleotroabsorption of a highly substituted anthraoene Langmuir film Solid State Commun. 32 683-6... [Pg.2630]

Thermodynamic Enolate- Reversible deprotonation to give the most stable enolate more highly substituted C=C of the enol form... [Pg.73]

This reaction worked best with more highly substituted diols and give predominantly syn elimination. [Pg.110]

Despite this overwhelming body of evidence, two-step mechanisms have been suggested for the Diels-Alder reaction, probably inspired by special cases, where highly substituted dienes and/or dienophiles have been found to react through zwitterionic or biradicalintermediates (Scheme 1.2). [Pg.5]

Note for highly substituted allenes containing silicon, gernanium or tin we observed deviations of the calculated chemical shifts from the measured values, and one should therefore treat these particular cases with special care. [Pg.256]

The problem of the synthesis of highly substituted olefins from ketones according to this principle was solved by D.H.R. Barton. The ketones are first connected to azines by hydrazine and secondly treated with hydrogen sulfide to yield 1,3,4-thiadiazolidines. In this heterocycle the substituents of the prospective olefin are too far from each other to produce problems. Mild oxidation of the hydrazine nitrogens produces d -l,3,4-thiadiazolines. The decisive step of carbon-carbon bond formation is achieved in a thermal reaction a nitrogen molecule is cleaved off and the biradical formed recombines immediately since its two reactive centers are hold together by the sulfur atom. The thiirane (episulfide) can be finally desulfurized by phosphines or phosphites, and the desired olefin is formed. With very large substituents the 1,3,4-thiadiazolidines do not form with hydrazine. In such cases, however, direct thiadiazoline formation from thiones and diazo compounds is often possible, or a thermal reaction between alkylideneazinophosphoranes and thiones may be successful (D.H.R. Barton, 1972, 1974, 1975). [Pg.35]

Terminal alkyne anions are popular reagents for the acyl anion synthons (RCHjCO"). If this nucleophile is added to aldehydes or ketones, the triple bond remains. This can be con verted to an alkynemercury(II) complex with mercuric salts and is hydrated with water or acids to form ketones (M.M.T. Khan, 1974). The more substituted carbon atom of the al-kynes is converted preferentially into a carbonyl group. Highly substituted a-hydroxyketones are available by this method (J.A. Katzenellenbogen, 1973). Acetylene itself can react with two molecules of an aldehyde or a ketone (V. jager, 1977). Hydration then leads to 1,4-dihydroxy-2-butanones. The 1,4-diols tend to condense to tetrahydrofuran derivatives in the presence of acids. [Pg.52]

There also exists an acidregioselective condensation of the aldol type, namely the Mannich reaction (B. Reichert, 1959 H. Hellmann, 1960 see also p. 291f.). The condensation of secondary amines with aldehydes yields Immonium salts, which react with ketones to give 3-amino ketones (=Mannich bases). Ketones with two enolizable CHj-groupings may form 1,5-diamino-3-pentanones, but monosubstitution products can always be obtained in high yield. Unsymmetrical ketones react preferentially at the most highly substituted carbon atom. Sterical hindrance can reverse this regioselectivity. Thermal elimination of amines leads to the a,)3-unsaturated ketone. Another efficient pathway to vinyl ketones starts with the addition of terminal alkynes to immonium salts. On mercury(ll) catalyzed hydration the product is converted to the Mannich base (H. Smith, 1964). [Pg.57]

C = C triple bonds are hydrated to yield carbonyl groups in the presence of mercury (II) ions (see pp. 52, 57) or by successive treatment with boranes and H2O2. The first procedure gives preferentially the most highly substituted ketone, the latter the complementary compound with high selectivity (T.W. Gibson, 1969). [Pg.131]

Butyne trimerizes in the presence of aluminum chloride to give hexamethyl Dewar-benzene (W. Schafer, 1967). Its irradiation leads not only to aromatization but also to hexa-methylprismane (D.M. Lemal, 1966). Highly substituted prlsmanes may also be obtained from the corresponding benzene derivatives by irradiation with 254 nm light. The rather stable prismane itself was synthesized via another hydrocarbon, namely benzvalene, a labile molecule (T. J. Katz, 1971, 1972). [Pg.330]

A more highly substituted analogue was successfully used in the preparation of the penitrem class of terpenoid indoles[3]. [Pg.50]

The issue of regioselectivity arises with arylhydrazones of unsymmetrical ketones which can form two different enehydrazine intermediates. Under the conditions used most commonly for Fischer cyclizations, e g. ethanolic HCI, the major product is usually the one arising from the more highly substituted enehydrazine. Thus methyl ketones usually give 2-methy indoles and cycliz-ation occurs in a branched chain in preference to a straight chain. This regioselectivity is attributed to the greater stability of the more substituted enhydrazine and its dominance of the reaction path. [Pg.56]

Of the two extremes experimental studies indicate that the planar sp model describes the bonding m alkyl radicals better than the pyramidal sp model Methyl rad ical IS planar and more highly substituted radicals such as tert butyl radical are flattened pyramids closer m shape to that expected for sp hybridized carbon than for sp ... [Pg.168]

In general alkenes with more highly substituted double bonds are more stable than iso mers with less substituted double bonds... [Pg.199]

An effect that results when two or more atoms or groups rnteract so as to alter the electron drstnbutron rn a system rs called an electronic effect The greater stability of more highly substituted alkenes is an example of an electronic effect... [Pg.199]

Zaitsev s rule as applied to the acid catalyzed dehydration of alcohols is now more often expressed in a different way elimination reactions of alcohols yield the most highly substituted alkene as the major product Because as was discussed in Section 5 6 the most highly substituted alkene is also normally the most stable one Zaitsev s rule is sometimes expressed as a preference for predominant formation of the most stable alkene that could arise by elimination... [Pg.205]

Alkenes are prepared by P elimination of alcohols and alkyl halides These reactions are summarized with examples m Table 5 2 In both cases p elimination proceeds m the direction that yields the more highly substituted double bond (Zaitsev s rule)... [Pg.221]

Dehydration of alcohols (Sections 5 9-5 13) Dehydra tion requires an acid catalyst the order of reactivity of alcohols IS tertiary > secondary > primary Elimi nation is regioselective and proceeds in the direction that produces the most highly substituted double bond When stereoisomeric alkenes are possible the more stable one is formed in greater amounts An El (elimination unimolecular) mechanism via a carbo cation intermediate is followed with secondary and tertiary alcohols Primary alcohols react by an E2 (elimination bimolecular) mechanism Sometimes elimination is accompanied by rearrangement... [Pg.222]

The regioselectivity of addition is established when water attacks one of the car bons of the halonium ion In the following example the structure of the product tells us that water attacks the more highly substituted carbon... [Pg.259]

High level molecular orbital calculations of cyclobutadiene itself and experimen tally measured bond distances of a stable highly substituted derivative both reveal a pat tern of alternating short and long bonds characteristic of a rectangular rather than square geometry... [Pg.451]

There is an important difference in the regiochemistry of ring opening reactions of epoxides depending on the reaction conditions Unsymmetncally substituted epoxides tend to react with anionic nucleophiles at the less hindered carbon of the ring Under conditions of acid catalysis however the more highly substituted carbon is attacked... [Pg.679]

An old name for benzene was phene and its hydroxyl derivative came to be called phe nol This like many other entrenched common names is an acceptable lUPAC name Likewise o m and p cresol are acceptable names for the various ring substituted hydroxyl derivatives of toluene More highly substituted compounds are named as deriv atives of phenol Numbering of the ring begins at the hydroxyl substituted carbon and proceeds m the direction that gives the lower number to the next substituted carbon Sub stituents are cited m alphabetical order... [Pg.993]

Zaitsevs rule (Section 5 10) When two or more alkenes are capable of being formed by an elimination reaction the one with the more highly substituted double bond (the more sta ble alkene) is the major product Zwitterion (Section 27 3) The form in which neutral amino acids actually exist The ammo group is in its protonated form and the carboxyl group is present as a carboxylate... [Pg.1297]

Nucleophilic Reactions. The strong electronegativity of fluorine results in the facile reaction of perfluoroepoxides with nucleophiles. These reactions comprise the majority of the reported reactions of this class of compounds. Nucleophilic attack on the epoxide ring takes place at the more highly substituted carbon atom to give ring-opened products. Fluorinated alkoxides are intermediates in these reactions and are in equiUbrium with fluoride ion and a perfluorocarbonyl compound. The process is illustrated by the reaction of methanol and HFPO to form methyl 2,3,3,3-tetrafluoro-2-methoxypropanoate (eq. 4). [Pg.303]

Both alkyl and aryl isocyanates are found to trimerize upon heating or ia the preseace of catalysts to 1,3,5-trisubstituted hexahydro-j -triaziaetrioaes (18) (isocyanurates) (57). Only highly substituted isocyanates, such as tert-huty isocyanate [7188-38-7] and tert-octy isocyanate, fail to trimerize under these conditions. [Pg.451]

Hydroxyapatite, Ca2Q(PO (OH)2, may be regarded as the parent member of a whole series of stmcturaHy related calcium phosphates that can be represented by the formula M2q(ZO X2, where M is a metal or H O" Z is P, As, Si, Ga, S, or Cr and X is OH, F, Cl, Br, 1/2 CO, etc. The apatite compounds all exhibit the same type of hexagonal crystal stmcture. Included are a series of naturally occurring minerals, synthetic salts, and precipitated hydroxyapatites. Highly substituted apatites such as FrancoHte, Ca2Q(PO (C02) (F,0H)2, are the principal component of phosphate rock used for the production of both wet-process and furnace-process phosphoric acid. [Pg.334]

The Ritter reaction with unsaturated carbenium ions under either silver-assisted solvolysis or photolytic conditions leads to excellent yields of isoquiaolines (173). The ease of preparation of the requited vinyl bromides makes an attractive route to highly substituted isoquiaolines. [Pg.397]

Many benzenoid quaternary cationic surfactants possess germicidal, fungicidal, or algicidal activity. Solutions of such compounds, alone or in combination with nonionic surfactants, are used as detergent sanitizers in hospital maintenance. Classified as biocidal products, their labeling is regulated by the U.S. EPA. The 1993 U.S. shipments of cationic surfactants represented 16% of the total sales value of surfactant production. Some of this production is used for the preparation of more highly substituted derivatives (101). [Pg.255]

Thermal stability is enhanced in chelates thus dimethyl-2-methy1pentane-2,4-dio1titanium [23916-35-0] (22) is much more stable than (CH2)3Ti(OCH(CH2)2)2 (68)- The stmcture of the former has been shown by x-ray diffraction to be dimeric and five-coordinate through oxygen bridges. The more highly substituted the six-membered ring, the mote thermally stable the compound. [Pg.154]

Erythromycins. Erythromycin A (14, R = OH, R = CH3, R" = H), the most widely used macroHde antibiotic, was the principal product found in culture broths of Streptomjces eTythreus (39), now reclassified as Saccharopoljspora eythraea (40). It contains a highly substituted aglycone, erythronoHde A, (16, R = R = OH) to which desosamine (1, R = OH, R = H) and cladinose (8, R = CH ) are attached (41). The complete stereochemistry of erythromycin A was estabUshed by x-ray analysis of its hydroiodide dihydrate (42) total synthesis of erythromycin A was a landmark achievement (43), a task previously considered hopeless (44). [Pg.97]

Regioselective bromination of ketones at the mote highly substituted a-position is effected by photocatalytic bromination in the presence of 1,2-epoxycyclohexane (37). [Pg.283]

Solutions of methylceUuloses are pseudoplastic below the gel point and approach Newtonian flow behavior at low shear rates. Above the gel point, solutions are very thixotropic because of the formation of three-dimensional gel stmcture. Solutions are stable between pH 3 and 11 pH extremes wiU cause irreversible degradation. The high substitution levels of most methylceUuloses result in relatively good resistance to enzymatic degradation (16). [Pg.276]

Reaction of HOCl, formed from calcium hypochlorite and CO2, with highly substituted alkenes in CH2CI2 is a convenient route to aHyUc chlorides (111). Ketones are chlorinated to a-chloroketones by reaction with HOCl Acetone initially gives CH2COCH2CI (112). Methyl ethyl ketone gives 78% CH3CHCICOCH3, 15% CH3CH2COCH2CI, and 7% dichlorides (113). [Pg.468]

The flexibiHty of the final film is partiy controUed by the ratio of aromatic to aHphatic dibasic acids. The esters of highly substituted polyols such as neopentyl glycol (NPG) (2,2-dimethyl-l,3-propanediol) [126-30-7] 1,4-dimethylolcyclohexane (cyclohexanedimethanol (CHDM)) [27193-23-3] ... [Pg.336]


See other pages where Highly-substituted is mentioned: [Pg.39]    [Pg.112]    [Pg.710]    [Pg.106]    [Pg.5]    [Pg.11]    [Pg.847]    [Pg.401]    [Pg.404]    [Pg.314]    [Pg.255]    [Pg.93]    [Pg.265]    [Pg.287]    [Pg.291]    [Pg.520]   


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Cation substitution, high temperature

Cation substitution, high temperature transfers

Cyclopentane rings, highly substituted

Cyclopropanes highly substituted, synthesis

FCCs as Reagents Approach to Highly Substituted Carbo- and Heterocycles

Furans highly substituted

High molecular weight polymers substitution polymerization

High temperature superconductors substitutions

Highly Substituted Anthracenes

Highly Substituted Naphthalenes

Highly substituted 1,3-diene

Highly substituted alkenes

Highly substituted aromatic

Highly substituted aromatic compounds

Highly substituted benzofurans, synthesis

Highly substituted biaryls

Highly substituted cyclohexane ring

Highly substituted cyclopentene

Highly substituted derivatives

Highly substituted ketone

Highly substituted ketone substrates

Highly substituted pyridine synthesi

Highly substituted tetrahydrofuran

Ionic liquids highly substituted pyridine synthesi

Ligand substitution reactions high oxidation state complexes

Nucleophilic substitutions high-pressure

Polyacetylenes substituted polymers highly permeable

Pyridines highly substituted

SYNTHESIS highly substituted

Synthesis of Highly Substituted Pyridines

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