Reactions dehydroaromatization

Dehydrobenzene or benzyne 158 can be trapped by all manner of species. 1,2-Dehydro-o-carborane 159 has been shown to undergo many of the same reactions as its two-dimensional relative, 1,2-dehydrobenzene. Although dehydroaromatic molecules can be formed in a variety of ways, synthetic pathways to 1,2-dehydro-o-carborane are quite limited. An effective procedure reported so far78 first forms the dianion by deprotonation of o-carborane with 2 equiv. of butyllithium. Precipitated dilithium carborane is then treated with 1 equiv. of bromine at 0°C to form the soluble bromo anion 160. Thermolysis of 160 with anthracene, furan, and thiophene as substrates leads to the adducts 161-164.79 80 1,2-Dehydro-o-carborane reacts with norbomadiene to give both homo 2+4 and 2+2 addition, leading to three products 165-167, in a 7 1 ratio79. An acyclic diene, 2,3-dimethyl-... 

Methane dehydroaromatization on zeolites Mo/HZSM-5 was also investigated by solid-state MAS NMR spectroscopy 162. Both variation of the state of the transition metal component and products (such as ethane, benzene, and ethylene) adsorbed in zeolite were observed after reaction at high temperature (900-1000 K). Molybdenum carbide species, dispersed on the external surface or in the internal channels of the zeolite catalysts, had formed during the reaction 162. ... 

Hetarynes (dehydroaromatic heterocycles) can also act as dienophiles in Diels-Alder reactions. 2 This capacity and the inherent regiochemical problems are illustrated by two syntheses of the alkaloid ellip-ticine, which both feature a [4 + 2] cycloaddition of 3,4-pyridyne (533) (Scheme 126). 2 The first approach used the triazenylcarboxylic acid (534) as a precursor for hetaryne (533), which then underwent an addition to pyranoindolone (535) spontaneous CCh extrusion of the initial cycloadducts (536 X = N, Y = CH) and (536 X = CH, Y = N) gave directly a 50 50 mixture of ellipticine (537) and its undesired regioisomer (538). 2 ... 

We undertook to investigate the reaction of olefins with oxide-free carbon surfaces in the hopes that chemisorption would occur in ways which could be related to the known chemistry of aromatic free radicals and dehydroaromatics, and that suitable manipulation might provide routes to homogeneously functionalized surfaces. High surface-area carbon fibers were heated to approximately 1000°C under vacuum to remove the surface oxides (evolution of H2O, C02, and CO). The samples were cooled to room temperature and exposed to vapors of various different substrates. The quantity of substrate adsorbed was determined and corrected for the quantity of physisorbed material which could be pumped off at room temperature. Some typical results are reported in Table II. In certain cases the reactivity towards oxygen was redetermined after exposure to the organic substrate. 

During their studies on the hydrogenation mechanism of quinolines, Zhou and coworkers found that the dehydroaromatization reactions of 1,4 dihydropyr idines (Hantzsch esters) could be realized using their catalytic system, and hydrogen gas was produced in this reaction [29]. Subsequently, they reported the... 

On the basis of the results obtained one may draw a conclusion that there exists a certain relationship between the concentration of acidic sites of different types of zeolite and Mo content. In this coimection, to produce a catalyst e diibiting a high activity in the process of methane dehydroaromatization, it is necessary to optimise the relationship between the acidic sites number of a zeolite and the number of active sites connected with different Mo forms. The highest methane conversion per one run and maximal yield of aromatic hydrocarbons are reached for the sample containing 4.0 mass% of Mo nanopowder. The development of the mesoporous zeolite structure is an important factor promoting the activity of Mo-ZSM-5 in the reactions of the formation of high-molecular aromatic compounds. 

Arynes, such as benzyne (1,2-dehydrobenzene), also undergo Diels-Alder cycloaddition reactions. Benzyne, CelTj, is a highly reactive species and can be prepared by elimination of a suitably substituted benzene derivative. It reacts in situ with various dienes such as furan, cyclopentadiene, cyclohexadiene and even benzene and naphthalene to give bicyclic or polycyclic cycloadducts (3.15). Analogous addition reactions are shown by dehydroaromatics in the pyridine and thiophene series. 

Transition metal-incorporated zeolites have been shown to be effident catalysts for direct conversion of methane to benzene and toluene under nonoxidative conditions [45,46]. Bao and co-workers revealed that Mo/ H-MCM-22 catalysts are desirable bifiinctional catalysts for methane dehydroaromatization reaction [47]. In terms of catalytic performances of Mo/H-MCM-22 with varied metal loading, catalyst with a Mo loading of ca. 6 wt% was found to exhibit the optimal benzene selectivity, suppressed naphthalene yield, and prolonged catalyst hfe under a moderate methane conversion. Although both Bronsted and Lewis acid sites are capable of catalysing methane conversion reaction, active sites with higher acidic strengths are anticipated to play the dominant role. 

Differential scanning calorimetry (DSC) analysis of (R)-54 shows a large irreversible exothermic peak at 202 C AH = -95.5 J/g). This indicates that the polymer undergoes chemical decomposition. The main chain of (R)-54 is made of acyclic ene-diyne fragments that are known to undergo Bergman cyclization (Scheme 28) to generate 1,4-dehydroaromatic diradicals at about 200 C 156,57]. The irreversible reaction of (R)-S4 at 202°C observed by DSC analysis may be caused by such an... 

From a mechanistic point of view, in the initial step, the (Z)-l,2,4-heptatrien-6-yne, or compounds containing an equivalently unsaturated core, undergoes a mild, thermal electrocyclization reaction to form an a,3-alkylbenzenediyl, a diradical intermediate with substantial polar character. Dehydroaromatic intermediate 7, when trapped by the solvent or compounds (e.g., 1,4-cyclohexadiene) present in the reaction medium, forms than aromatic products of type 8, 9, and 10. In methanol, a mixture of hydrogen atom abstraction and polar addition product are obtained. ... 

Song Y Sun C, Shen W, Lin L. Hydrothermal post-synthesis of HZSM-5 zeolite to enhance the coke-resistance of Mo/HZSM-5 catalyst for methane dehydroaromatization reaction reconstruction of pore structure and modification of acidity. Appl Catal A 2007 317 266-74. 

---