Roberto Ballini

Nitroalkanes


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conjugated nitroalkenes is an important goal and a variety of efficient procedures have been reported [31–36]; however, they seem to be restricted to the reduction of nitrostyrene derivatives. Thus, a survey of the most representative examples is reported in Table 1.4.

      1.4.3 Aldehyde Reductive Nitromethylation

      So, this procedure offers the opportunity to increase the chain length of the starting aldehyde.

Chemical reaction depicts the reduction of nitroalkenes with NaCNBH3.
Nitroalkene Nitroalkane Yield (%)
Chemical structure of Nitroalkene. Chemical structure of Nitroalkane. 79
Chemical structure of Nitroalkene. Chemical structure of Nitroalkane. 74
Chemical structure of Nitroalkene. Chemical structure of Nitroalkane. 70
Chemical structure of Nitroalkene. Chemical structure of Nitroalkane. 78
Chemical structure of Nitroalkene. Chemical structure of Nitroalkane. 78
Chemical structure of Nitroalkene. Chemical structure of Nitroalkane. 69

      In contrast with the nitration of aromatic hydrocarbons that can easily performed using nitric acid in the presence of sulfuric acid, the selective nitration of aliphatic hydrocarbons is very difficult due to the exceeding low reactivity of the latter.

      Commercially available nitroalkanes can be used as precursors of more complex structures through their alkylation or arylation, performed under metal catalysis.

Chemical reaction depicts the stereoselective reduction of nitroalkenes.
Substrate Reducing system Yield (%), (ee)
Chemical structure of Nitroalkene. Baker’s yeast, EtOH·H2O [33] 91 (S, 12%)
Chemical structure of Nitroalkene. Baker’s yeast, EtOH·H2O [33] 72 (S, 12%)
Chemical structure of Nitroalkene. CuF2/PhSiH3, (R)(S)-JOSIPHOS, PHMS/PhMe·H2O [35] 52 (R, 90%)
Chemical structure of Nitroalkene. CuF2/PhSiH3, (R)(S)-JOSIPHOS, PHMS/PhMe·H2O [34] 88 (R 92%)
Chemical structure of Nitroalkene. CuO-t-Bu/PhSiH3, (S)(R)-JOSIPHOS, PMHS/PhMe·H2O [34] 55 (S, 72%)
Chemical structure of Nitroalkene. CuO-t-Bu/PhSiH3, (S)(R)-JOSIPHOS, PMHS/PhMe·H2O [34] 72 (S, 90%)