Abstract
The reductive cyclization of suitably substituted organic nitro compounds by carbon monoxide is a very appealing technique for the synthesis of heterocycles because of its atom efficiency and easiness of separation of the only stoichiometric byproduct CO2, but the need for pressurized CO has hampered its diffusion. We have recently reported on the synthesis of indoles by reductive cyclization of o-nitrostyrenes using phenyl formate as a CO surrogate, using a palladium/1,10-phenanthroline complex as catalyst. However, depending on the desired substituents on the structure, the use of β-nitrostyrenes as alternative reagents may be advantageous. We report here the results of our study on the possibility to use phenyl formate as a CO surrogate in the synthesis of indoles by reductive cyclization of β-nitrostyrenes, using PdCl2(CH3CN)2 + phenanthroline as the catalyst. It turned out that good results can be obtained when the starting nitrostyrene bears an aryl substituent in the alpha position. However, when no such substituent is present, only fair yield of indole can be obtained because the base required to decompose the formate also catalyzes an oligo-polymerization of the starting styrene. The reaction can be performed in a single glass pressure tube, a cheap and easily available piece of equipment.
Highlights
Indoles represents one of the most important classes of nitrogen heterocycles and many methods have been published for their synthesis [1,2,3,4,5]
Among the classes of reactions that can be employed to produce nitrogen heterocycles, reductive cyclization of organic nitro compounds by carbon monoxide is one of the most appealing from this point of view, because only CO2 is formed as a stoichiometric byproduct and the excess of reducing agent is removed with the produced CO2 upon venting the autoclave [6,7,8,9,10,11,12]
Paper, we describe our studies on the reductive cyclization of β-nitrostyrenes paper, we describe our studies on the reductive cyclization of β-nitrostyrenes by by phenyl phenyl formate as a formate as a CO surrogate (Scheme 1)
Summary
Indoles represents one of the most important classes of nitrogen heterocycles and many methods have been published for their synthesis [1,2,3,4,5]. Among the classes of reactions that can be employed to produce nitrogen heterocycles, reductive cyclization of organic nitro compounds by carbon monoxide is one of the most appealing from this point of view, because only CO2 is formed as a stoichiometric byproduct and the excess of reducing agent is removed with the produced CO2 upon venting the autoclave [6,7,8,9,10,11,12] Despite these apparent advantages, the use of carbon monoxide as a reducing agent has not spread outside the limited number of groups that have developed these reactions, the reason likely being connected with the difficulty in handling pressurized CO and with the required safety measurements. The use of CO surrogates has already been reviewed several times [13,14,15,16,17]
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