Indium triflate catalyst

It was first reported in 1996 that indium trichloride catalyzes the Diels-Alder reaction in water [131]. The reaction of acrolein with cyclopentadiene in the presence of 20 mol% InCl proceeds stereoselectively (endo. exo=91 9) (Scheme 8.101). Without catalyst the reaction only goes to 60% completion (endo exo=74 26). The InCh-catalyzed Diels-Alder reaction works with either cyclic or non-cyclic dienes. InCh can be recovered for reuse after the reaction is completed. Indium triflate is also an effective catalyst for intramolecular Diels-Alder reactions of furans under microwave irradiation (Scheme 8.102) [132]. 

Indium trichloride and indium triflate are good catalysts also for the imino Diels-Alder reactions. With 20 mol% InClj, N-benzylideneaniline reacts with cyclopentadiene to give the corresponding tetrahydroquinoline derivative (Scheme 8.104) [134]. Similar InCls-catalyzed imino Diels-Alder reachons proceed with 3,4-dihy-dro-2H-pyrane, indene [135], and cychc enamides [136]. In contrast, cyclohexen-2-one gives no phenanthridinone, but azabicyclo [2.2.2]octanone is isolated (Scheme 8.105) [137]. The reachon seems to proceed through the formahon of die-nolate ion by strong coordinahon of InCb with the enone. 

Indium chloride and indium triflate are efficient catalysts for the synthesis of bis-indolylmefhane and indolylquinoline derivatives. Indium triflate needs lower catalytic loading (Scheme 8.113) [156]. 

Indium triiodide catalyzes transesterification processes, e.g. the acylation of alcohols or amines and the conversion of THP ethers to acetates (Scheme 8.143) [187]. Indium triflate is also an efficient catalyst for the acylation of alcohols and amines (Scheme 8.144) [188]. Carboxylates are hydrolyzed to the corresponding carboxylic acids in high yield by microwave-assisted reaction on the surface of moistened silica gel in the presence of indium triiodide (Scheme 8.145) [189]. 

HSCH2CH2OH, ZrCLt, CH2CI2, 55-97% yield. Aldehydes react much faster than ketones. Indium triflate can be used as a catalyst (70-92% yield). ... 

A significant improvement in the catalyst adds further utility to this strategy. Using 1-5 mol% of indenyl complex 15 along with indium triflate and camphorsulfonic acid (CSA) as cocatalysts, the redox isomerization in Equation 1.19 was completed in 20 min compared with 1.5 h under the indium chloride cocatalyst conditions. 

There has been a review of asymmetric Friedel—Crafts reactions. It has been shown that the rhodium-catalysed reaction of potassium phenyltrifluoroborate with A-tosyl ketimines may lead to products such as (18) with high enantioselectivity. (g) The reaction of A-t-butanesuUinylimino esters with arenes to give products (19) is catalysed by Lewis acids, such as indium triflate, and may lead to enantio-metrically enriched a-glycines. The intramolecular alkylation of hydrogenated 0 tetralins, shown in Scheme 2, using iron(III) or aluminium(III) catalysts yields cis-hexahydrobenzophenanthridines. Formation of a stabilized carbocation intermediate is... 

A chiral pyridine-bisoxazoline ( PYBOX ) ligand has been combined with indium (III) triflate to produce an enantioselective catalyst for allylation of a wide variety of aldehydes in ionic liquids 183 ees of >90% were obtained, and extraction and reuse of the catalyst-ionic liquid combination saw this figure hold up to >80% on the fourth recycle. 

Indium(m) triflate is an efficient catalyst for the intramolecular cyclisation of y,8-unsaturated thiols although the nucleophilic attack can occur at either of the doubly bonded carbon atoms, leading to thiophene and thiopyran ring formation. It appears that the substitution pattern at the double bond controls the regiospecificity, with the product conforming to Markovnikov addition (Equation 139) <2006CC332>. 

Aminoalkyl and Related Acids. - Further development of the classical three component approach to aminoalkylphosphonates (the Kabachnik-Fields reaction) has been reported. The reaction of aldehydes, hydroxylamines and dimethyltrimethylsilyl phosphite using lithium perchlorate/diethyl ether as a catalyst gives N-trimethylsilyloxy-a-aminophosphonate derivatives. The catalytic activities of various lanthanide triflates as well as indium trichloride have been examined for the Kabachnik-Fields type reactions of aldehydes, amines and the phosphorus nucleophiles HP(0)(0Et)2 and P(OEt)3 in ionic liquids. TaCb-Si02 has been utilized as an efficient Lewis acid catalyst for the coupling of carbonyl compounds, aromatic amines and diethyl phosphite to produce a-... 

Methylrhenium trioxide (CH3Re03) has proved to be an excellent catalyst in organic solvents, and in water when the dienophile is an a, -unsaturated ketone (or aldehyde). Nearly exclusively one product isomer was formed, the same one that usually predominates [47]. Likewise, scandium triflate [48] and indium trichloride [49] were found to catalyze the Diels-Alder reaction in a tetrahydro-furan/water mixture and in pure water, respectively. 

Taking into account the competitive hydrolysis of the silyl enol ether, this reaction is remarkable. The method was shown to be general and was extended to a variety of aldehydes and several a,j9-unsaturated carbonyl compounds giving uniformly 1,4-addition with aldehydes and a mixture of 1,4- and 1,2-adducts in the case of ketones [187]. Later, this aqueous version of the Mukaiya-ma reaction was shown to give near quantitative yields in the presence of a water-tolerant Lewis acid such as ytterbium triflate [188]. Keeping with the same concept,copper(II) triflate [189],indium(III) trichloride [190],tris(pentafluoro-phenyl)boron [191] and scandium(III) triflate in the presence of a surfactant [192] have proved to be active catalysts. 

The iminium ion electrophile can also be prepared separately, as a crystalline solid known as Eschen-moser s salt (Me2N =CH21 ) and, with this, the reaction is normally carried ont in a non-polar solvent. Examples that illnstrate the variation in iminium ion structure that can be tolerated include the reaction of indole with quinolines, catalysed by indium(lll) chloride, with benzylidene derivatives of arylamines, catalysed by lanthanide triflates, with ethyl glyoxylate imines " (no catalyst required) and with dihydro-1,4-oxazin-2-ones. °" ... 

Additives that can be added to aqueous reactions include Lewis acids, which have roles as catalysts in organic transformations, mainly in Diels-Alder reactions [24]. A number of Lewis acids which can be used in water have been described, such as nitrates, for example, Cu(N03)2 and Zn2 +, Ni2 +, Co2+ analogs [25], lanthanide triflates, Ln(OTf)3 [26], and others, including indium trichloride [27]. Increased yields and product selectivities have been observed in several systems. A typical example is the three-component hetero-Diels-Alder reaction catalyzed by lanthanide triflate (Equation 4.14). Lanthanide triflates were used in the pH range 5-7, and when no Ln (OTf)3 was added, the product was isolated in only 4% yield however, with added lanthanide catalyst the yield was increased to 64% [28]. 

A recent improvement in the rate of the aqueous Diels-Alder reaction came with the use of Lewis acid in aqueous media. The first study deals with the Diels-Alder reaction between cydopentadiene and a bidentate dienophile. A large acceleration can be achieved by the combined use of copper(II) nitrate as a catalyst and water as a solvent [10, 34], Lanthanide and scandium triflates [9, 35] as well as indium trichloride [36] were found to catalyze the Diels-Alder reaction in water. 

To improve the yields and therefore the scope of this aqueous aldolization, the use of lanthanide triflates as water-tolerant Lewis acids was recommended [9, 60]. After completion of the reaction nearly 100% of the catalyst is recovered from the aqueous layer and can be re-used quite easily. Other water-tolerant Lewis acids, including indium chloride [61] and tris(pentafluorophenyl) boron [62], were proposed as catalysts in the aqueous aldol reaction. 

The authors tested InCl3 and Sc(OTf)j as Lewis acids to catalyze the domino process. Scandium(III) triflate mostly gave a 1 1 mixture of cis- and trans-64, while indium(III) chloride was able to provide mostly a 1 2.3 ratio. The yields showed to be higher with InCl3. The reaction could also be conducted without any catalyst, but the yields were considerably lower (65-70%, cisltrans= 1 1). 

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