Calcium in liquid ammonia for the reduction of benzyl ethers. Mechanistic clues derived from chemoselectivity studies
…, V Chua, JE Schroeder, RE Barrans Jr…
Index: Hwu, Jih Ru; Chua, Vincent; Schroeder, Jean E.; Barrans, Richard E.; Khoudary, Kevin P.; et al. Journal of Organic Chemistry, 1986 , vol. 51, # 24 p. 4731 - 4733
Full Text: HTML
Citation Number: 37
Abstract
Summary: Extremely high selectivity was provided by calcium in liquid ammonia in the cleavage of the benzylic carbon-oxygen bond in benzyl ethers containing various other functionalities. Results of controlled experiments indicate that the selectivities offered by the Ca-Ca++ e-and the Ca+-Ca2++ e-processes are 4.6 and 47 times greater, respectively, than that afforded by the Li-Li++ e-process.
Related Articles:
[Semmelhack, M. F.; Bozell, Joseph J.; Keller, Leonard; Sato, Tadahisa; Spiess, E.J.; et al. Tetrahedron, 1985 , vol. 41, # 24 p. 5803 - 5812]
Solvolysis of 1-pent-3-ynyl triflate. Mechanism of the homopropargyl rearrangement
[Journal of the American Chemical Society, , vol. 103, # 9 p. 2356 - 2360]
Solvolysis of 1-pent-3-ynyl triflate. Mechanism of the homopropargyl rearrangement
[Journal of the American Chemical Society, , vol. 103, # 9 p. 2356 - 2360]
Solvolysis of 1-pent-3-ynyl triflate. Mechanism of the homopropargyl rearrangement
[Journal of the American Chemical Society, , vol. 103, # 9 p. 2356 - 2360]
Solvolysis of 1-pent-3-ynyl triflate. Mechanism of the homopropargyl rearrangement
[Journal of the American Chemical Society, , vol. 103, # 9 p. 2356 - 2360]