Journal of Organic Chemistry p. 4634 - 4638 (1993)
Update date:2022-09-26
Topics:
Stevenson, Cheryl D.
Halvorsen, Troy D.
Kage, David E.
Reiter, Richard C.
McElheny, Daniel J.
A series of electron transfer competition reactions between several isotopically different benzophenones was established in liquid ammonia.The resulting electron transfer A(.-) + B = A + B(.-) equilibrium constants were determined via EPR studies and via the physical separation of the anion radical phase from the neutral molecule phase.This anion radical-neutral molecule separation leads to a partial separation of the isotopic isomers involved due to the deviation of the equilibrium constants from unity.Mass spectral analysis of the two phases yields thermodynamic data for the electron transfer that is consistent with the EPR results: when A = benzophenone, Keq at -75 deg C equals 0.52, 0.50, and 0.83 for equilibria involving B = perdeuteriated benzophenone,
ClickChem Technology Co., Limited
Contact:+86-0310-6519966/0531-52893837
Address:No.750 Shunhua Road, High-Tech Zone, Jinan city, Shandong China
Changzhou Sunsheng Chem Co., Ltd
Contact:+1-(989)-854-0648
Address:No. 28 Yinshan Rd., Xixiashu Industrial Park
Contact:0086 533 2282832
Address:Zibo,Shandong
Nanjing Chemipioneer Pharma&Tech Co.,Ltd
website:http://www.chemipioneer.com.cn
Contact:+86-25-52685700
Address:Room 305,A Block,Biological-Medicine Building,Business Start-up Center,Xin-ke 1st Road, High-tech development zone,Nanjing city,Jiangsu Province, China
Shanghai Sunway Pharmaceutical Technology Co.,Ltd.
Contact:+86-21-5161 3915
Address:Shanghai YangPu
Doi:10.1016/S0008-6215(00)88049-0
(1982)Doi:10.1016/S0957-4166(00)80164-0
(1993)Doi:10.1021/ol403388w
(2014)Doi:10.1246/bcsj.69.499
(1996)Doi:10.1021/ol403171p
(2014)Doi:10.1016/j.molstruc.2012.02.057
(2012)
