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Dimethyl ether, oxidation

The simplest dialkylchalcogenides R-E-R are the dimethylchalcogenides 105a-108a, with R=Me. The IPs have been calculated from absorption spectra and the expected trend is present, with dimethyltelluride oxidized most readily and dimethyl ether oxidized least readily (Table 12). The electron is removed from a... [Pg.131]

A survey of catalysis literature reveals that for the majority of transition metal oxide catalyzed reactions, maximum TOFs most frequently correlate with maxima in polymeric surface species content. A limited subset of examples includes WO /ZrOj for o-xylene isomerization [33], n-pentane isomerization [29], and 2-butanol dehydration [34] MoO /AljOj and VO /AljOj for dimethyl ether oxidation [35] MoO /AljOj for propane oxidative dehydrogenation [36] andMoO, supported on TiOj, ZrOj, AljOj, and NbjOs for methanol oxidation [37]. [Pg.258]

H.C. Liu, P. Cheung and E. Iglesia, Effects of AI2O3 support modifications on MoO and VO, catalysts for dimethyl ether oxidation to formaldehyde, Phys. Chem. Chem. [Pg.278]

Curran, H.J. Pitz, W.J. Westbrook, C.K Dagaut, P.B. Boettner, J-C Cathonnet, M. (1998). AWide Range Modeling Study of Dimethyl Ether Oxidation, International Journal... [Pg.154]

Wu, Z., Qiao, X., Huang, Z. A criterion based on computational singular pertiubation for the construction of a reduced mechanism for dimethyl ether oxidation. J. Serb. Chem. Soc. 78, 1177-1188 (2013)... [Pg.311]

A new approach we found is based on the initial bromination of methane to methyl bromide, which can be effected with good selectivity, although still in relatively low yields. Methyl bromide is easily separated from exeess methane, whieh is readily recyeled. Hydrolysis of methyl bromide to methyl alcohol and its dehydration to dimethyl ether are readily achieved. Importantly, HBr formed as by produet ean be oxidatively reeycled into bromine, making the overall proeess cat-alytie in bromine. [Pg.211]

View molecular models of dimethyl ether and ethylene oxide on Learning By Modeling Which one has the greater dipole moment Do the calculated dipole moments bear any relation ship to the observed boiling points (ethylene oxide +10°C dimethyl ether —25°C) d... [Pg.700]

Tetrafluoroethylene Oxide TFEO has only been prepared by a process employing oxygen or ozone because of its extreme reactivity with ionic reagents. This reactivity may best be illustrated by its low temperature reaction with the weak nucleophile, dimethyl ether, to give either of two products (47) (eq. 10). [Pg.304]

Alkylated phenol derivatives are used as raw materials for the production of resins, novolaks (alcohol-soluble resins of the phenol—formaldehyde type), herbicides, insecticides, antioxidants, and other chemicals. The synthesis of 2,6-xylenol [576-26-1] h.a.s become commercially important since PPO resin, poly(2,6-dimethyl phenylene oxide), an engineering thermoplastic, was developed (114,115). The demand for (9-cresol and 2,6-xylenol (2,6-dimethylphenol) increased further in the 1980s along with the growing use of epoxy cresol novolak (ECN) in the electronics industries and poly(phenylene ether) resin in the automobile industries. The ECN is derived from o-cresol, and poly(phenylene ether) resin is derived from 2,6-xylenol. [Pg.53]

The dimethyl ethers of hydroquiaones and 1,4-naphthalenediols can be oxidized with silver(II) oxide or ceric ammonium nitrate. Aqueous sodium hypochlorite under phase-transfer conditions has also produced efficient conversion of catechols and hydroquiaones to 1,2- and 1,4-benzoquiaones (116), eg, 4-/-butyl-l,2-ben2oquinone [1129-21-1] ia 92% yield. [Pg.418]

SuIfona.tlon, Sulfonation is a common reaction with dialkyl sulfates, either by slow decomposition on heating with the release of SO or by attack at the sulfur end of the O—S bond (63). Reaction products are usually the dimethyl ether, methanol, sulfonic acid, and methyl sulfonates, corresponding to both routes. Reactive aromatics are commonly those with higher reactivity to electrophilic substitution at temperatures > 100° C. Tn phenylamine, diphenylmethylamine, anisole, and diphenyl ether exhibit ring sulfonation at 150—160°C, 140°C, 155—160°C, and 180—190°C, respectively, but diphenyl ketone and benzyl methyl ether do not react up to 190°C. Diphenyl amine methylates and then sulfonates. Catalysis of sulfonation of anthraquinone by dimethyl sulfate occurs with thaHium(III) oxide or mercury(II) oxide at 170°C. Alkyl interchange also gives sulfation. [Pg.200]

Pellotine and Anhalonidine. The A -acetyl derivative of mezcaline (I NHj— NHAc), on treatment with phosphoric oxide, yields 6 7 8-trimethoxy-l-methyl-3 4-dihydrowoquinoline (picrate, m.p. 181-2°), which, on successive catalytic hydrogenation and treatment with methyl sulphate, yields 6 7 8-trimethoxy-l 2-dimethyl-l 2 3 4-tetrahydro-isoquinoline identical with 0-methylpellotine (picrate, m.p. 167-8°), whence it appears that pellotine must be a dimethyl ether of 6 7 8-trihydroxy-1 2-dimethyl-l 2 3 4-tetrahydrowoquinoline. Pellotine and anhalonidine on complete methylation yield the same product, and as anahalonidine is a secondary base and differs from pellotine by containing —CHj less, it must be a dimethyl ether of 6 7 8-trihydroxy-l-methyl-1 2 3 4-tetrahydrowoquinoline, and pellotine should be A -methyl-anahalonidine. [Pg.157]

It now seems definitely proved that the thiothiophthene (86) rearranged reversibly to a thiophene (87) under the influence of alkali and not to a thiepin derivative, The dimethyl ether of (87) has been oxidized to 4-methylsulfonyl-2-thiophenecarboxylic acid (88)... [Pg.33]

In the first of these, the key step in the synthetic sequence involves an oxidative phenol coupling reaction patterned after the biosynthesis of the natural product. Preparation of the moiety that is to become the aromatic ring starts by methyla-tion of phloroglucinol (5) with methanolic hydrogen chloride to give the dimethyl ether (6). Treatment of that intermediate with sulfuryl chloride introduces the chlorine atom needed in the final product (7). [Pg.314]

Naoi and co-workers [55], with a QCM, studied lithium deposition and dissolution processes in the presence of polymer surfactants in an attempt to obtain the uniform current distribution at the electrode surface and hence smooth surface morphology of the deposited lithium. The polymer surfactants they used were polyethyleneglycol dimethyl ether (molecular weight 446), or a copolymer of dimethylsilicone (ca. 25 wt%) and propylene oxide (ca. 75 wt%) (molecular weight 3000) in LiC104-EC/DMC (3 2, v/v). [Pg.348]

DMC and EG were main products of the transesterification reaction. No by-product such as dimethyl ether and glycol monoethyl ether was observed in the resulting products. Only small peaks of ethylene oxide from the decomposition of EC could be detected at longer reaction time and at high temperature. [Pg.330]

Hyman MR, CL Page, DJ Arp (1994) Oxidation of methyl fluoride and dimethyl ether by ammonia monooxygenase in Nitrosomonas europaea. Appl Environ Microbiol 60 3033-3035. [Pg.83]

See other pages where Dimethyl ether, oxidation is mentioned: [Pg.1455]    [Pg.1457]    [Pg.1455]    [Pg.1457]    [Pg.259]    [Pg.494]    [Pg.181]    [Pg.387]    [Pg.192]    [Pg.200]    [Pg.340]    [Pg.364]    [Pg.284]    [Pg.228]    [Pg.231]    [Pg.256]    [Pg.426]    [Pg.426]    [Pg.603]    [Pg.1052]    [Pg.1031]    [Pg.233]    [Pg.332]    [Pg.111]   
See also in sourсe #XX -- [ Pg.467 , Pg.468 ]



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