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Synthesis, Characterization, and Transition-Metal Complexes of 3,4-Diazaphospholanes

The steric, electronic, and synthetic characteristics of 3,4-diazaphospholanes are reported. Crystallographic structures of free and metal-complexed 3,4-diazaphospholanes provide steric metrics (cone angle, solid angle, etc.). Diazaphospholanes span a wide range of sizes with cone angles varying fro...

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Published in:	Organometallics 2006-03, Vol.25 (6), p.1377-1391
Main Authors:	Landis, Clark R, Nelson, Ryan C, Jin, Wiechang, Bowman, Amanda C
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Language:	English
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cited_by	cdi_FETCH-LOGICAL-a297t-120f6afa08b7b7b22522d6d70795030f1ead1de9966a1265860ce94c028c45dd3
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creator	Landis, Clark R Nelson, Ryan C Jin, Wiechang Bowman, Amanda C
description	The steric, electronic, and synthetic characteristics of 3,4-diazaphospholanes are reported. Crystallographic structures of free and metal-complexed 3,4-diazaphospholanes provide steric metrics (cone angle, solid angle, etc.). Diazaphospholanes span a wide range of sizes with cone angles varying from 135 to 188°. The electron-donating abilities of diazaphospholanes have been estimated using the carbonyl infrared stretching frequencies, ν(CO), of [trans-Rh(diazaphospholane)2(CO)Cl] complexes. Frequencies for the CO stretches range from 1975 to 2011 cm-1, thus indicating that 3,4-diazaphospholanes may be as electron rich as dialkylarylphosphines or as electron deficient as trialkyl phosphites. Reduction of N,N‘-phthalamido-3,4-diazaphospholanes with BH3·SMe2 yields diazaphospholanes that not only are more electron rich but also show a reorientation of the phospholane substituents that may affect catalytic properties. Diazaphospholanes readily react with many Rh and Pd catalyst precursors to form complexes. Metal complexes of 3,4-diazaphospholanes exhibit reactivities different from those of common phosphine complexes, presumably due to the generally greater steric bulk and electron deficiency of 3,4-diazaphospholanes relative to phosphines. Cationic Rh(I) complexes of 3,4-diazaphospholanes abstract chloride ligands from chlorinated solvents to afford chloride-bridged dimers. The complex [(rac-17)Pd(Me)Cl] rearranges in solutionstereoselectively transferring methyl from palladium to phosphorus while simultaneously opening a diazaphospholane ring. Many of the 3,4-diazaphospholane−metal complexes have extremely close Cl···H−C(P)(N) contacts, suggesting Cl···H hydrogen bonding.
doi_str_mv	10.1021/om050922g
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Metal complexes of 3,4-diazaphospholanes exhibit reactivities different from those of common phosphine complexes, presumably due to the generally greater steric bulk and electron deficiency of 3,4-diazaphospholanes relative to phosphines. Cationic Rh(I) complexes of 3,4-diazaphospholanes abstract chloride ligands from chlorinated solvents to afford chloride-bridged dimers. The complex [(rac-17)Pd(Me)Cl] rearranges in solutionstereoselectively transferring methyl from palladium to phosphorus while simultaneously opening a diazaphospholane ring. 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Crystallographic structures of free and metal-complexed 3,4-diazaphospholanes provide steric metrics (cone angle, solid angle, etc.). Diazaphospholanes span a wide range of sizes with cone angles varying from 135 to 188°. The electron-donating abilities of diazaphospholanes have been estimated using the carbonyl infrared stretching frequencies, ν(CO), of [trans-Rh(diazaphospholane)2(CO)Cl] complexes. Frequencies for the CO stretches range from 1975 to 2011 cm-1, thus indicating that 3,4-diazaphospholanes may be as electron rich as dialkylarylphosphines or as electron deficient as trialkyl phosphites. Reduction of N,N‘-phthalamido-3,4-diazaphospholanes with BH3·SMe2 yields diazaphospholanes that not only are more electron rich but also show a reorientation of the phospholane substituents that may affect catalytic properties. Diazaphospholanes readily react with many Rh and Pd catalyst precursors to form complexes. Metal complexes of 3,4-diazaphospholanes exhibit reactivities different from those of common phosphine complexes, presumably due to the generally greater steric bulk and electron deficiency of 3,4-diazaphospholanes relative to phosphines. Cationic Rh(I) complexes of 3,4-diazaphospholanes abstract chloride ligands from chlorinated solvents to afford chloride-bridged dimers. The complex [(rac-17)Pd(Me)Cl] rearranges in solutionstereoselectively transferring methyl from palladium to phosphorus while simultaneously opening a diazaphospholane ring. 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Crystallographic structures of free and metal-complexed 3,4-diazaphospholanes provide steric metrics (cone angle, solid angle, etc.). Diazaphospholanes span a wide range of sizes with cone angles varying from 135 to 188°. The electron-donating abilities of diazaphospholanes have been estimated using the carbonyl infrared stretching frequencies, ν(CO), of [trans-Rh(diazaphospholane)2(CO)Cl] complexes. Frequencies for the CO stretches range from 1975 to 2011 cm-1, thus indicating that 3,4-diazaphospholanes may be as electron rich as dialkylarylphosphines or as electron deficient as trialkyl phosphites. Reduction of N,N‘-phthalamido-3,4-diazaphospholanes with BH3·SMe2 yields diazaphospholanes that not only are more electron rich but also show a reorientation of the phospholane substituents that may affect catalytic properties. Diazaphospholanes readily react with many Rh and Pd catalyst precursors to form complexes. Metal complexes of 3,4-diazaphospholanes exhibit reactivities different from those of common phosphine complexes, presumably due to the generally greater steric bulk and electron deficiency of 3,4-diazaphospholanes relative to phosphines. Cationic Rh(I) complexes of 3,4-diazaphospholanes abstract chloride ligands from chlorinated solvents to afford chloride-bridged dimers. The complex [(rac-17)Pd(Me)Cl] rearranges in solutionstereoselectively transferring methyl from palladium to phosphorus while simultaneously opening a diazaphospholane ring. Many of the 3,4-diazaphospholane−metal complexes have extremely close Cl···H−C(P)(N) contacts, suggesting Cl···H hydrogen bonding.</abstract><pub>American Chemical Society</pub><doi>10.1021/om050922g</doi><tpages>15</tpages></addata></record>
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title	Synthesis, Characterization, and Transition-Metal Complexes of 3,4-Diazaphospholanes
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