Synthesis, Structures, and Reactions of Titanium, Scandium, and Yttrium Complexes of Diamino-bis(phenolate) Ligands:  Monomeric, Dimeric, Neutral, Cationic, and Multiply Bonded Derivatives

Abstract: New groups 3 and 4 organometallic and coordination compounds supported by the tetradentate diamino-bis(phenolate) ligands O2 tBuNN‘ and O2 MeNN‘ are reported [H2O2 RNN‘ = (2-C5H4N)CH2N(2-HO-3,5-C6H2R2)2 where R = tBu or Me] along with some comparative studies with the tridentate amino-bis(phenolate) ligand O2 tBuN (H2O2 tBuN = nPrN(2-HO-3,5-C6H2 tBu2)2). Reaction of Na2O2 tBuNN‘ with ScCl3 and pyridine in THF gave monomeric Sc(O2 tBuNN‘)Cl(py) (2), whereas Na2O2 MeNN‘ gave the dimeric phenoxy-bridged Sc2(O2 Me… Show more

“…The present result is quite different from that of the reported diaminobis(phenolate) yttrium chloride L' YCl [L'=(2-C 5 H 4 )-CH 2 N{CH 2 -(2-OC 6 H 2 t Bu 2 -3,5)} 2 ], in which the Y -Cl bond was inactive for substitution with LiN(SiMe 3 ) 2 or lithium alkyls [11] . These results revealed that the sidearm donor has a great effect on the reactivity of Ln-Cl bond of diaminobis(phenolate) rare-earth complexes.…”

“…The central metal atom is coordinated 6 times by two oxygen atoms and two nitrogen atoms from the diaminobis(phenolate) ligand, one THF molecule, and one chlorine atom in a distorted octahedron. The overall coordination geometry is similar to the geometries of LLnCl(THF) (Ln = Yb , Er) [15] and L'ScCl(py) [L' =(2-C 5 H 4 )-CH 2 N{CH 2 -(2-OC 6 H 2 -t Bu 2 -3, 5)} 2 ], but different from the geometry of [L'Y(µ-Cl) (py)] 2 [11] , in which each metal center is seven-coordinate. In [11] and LLnCl [15] , when the differences in ionic radii are considered.…”

“…The overall coordination geometry is similar to the geometries of LLnCl(THF) (Ln = Yb , Er) [15] and L'ScCl(py) [L' =(2-C 5 H 4 )-CH 2 N{CH 2 -(2-OC 6 H 2 -t Bu 2 -3, 5)} 2 ], but different from the geometry of [L'Y(µ-Cl) (py)] 2 [11] , in which each metal center is seven-coordinate. In [11] and LLnCl [15] , when the differences in ionic radii are considered. The Y-Cl bond length of 2.562 Å in complex 1 is in agreement with the data found in the other monomeric yttrium chlorides and, apparently shorter than the corresponding bond length in the dimeric [L'Y(µ-Cl)(py)] 2 (2.766 Å) [11] , and comparable to the corresponding value in LLnCl [15] when differences in ionic radii are also considered.…”

“…In [11] and LLnCl [15] , when the differences in ionic radii are considered. The Y-Cl bond length of 2.562 Å in complex 1 is in agreement with the data found in the other monomeric yttrium chlorides and, apparently shorter than the corresponding bond length in the dimeric [L'Y(µ-Cl)(py)] 2 (2.766 Å) [11] , and comparable to the corresponding value in LLnCl [15] when differences in ionic radii are also considered. The Y-N(2) bond length of 2.546(6) Å in complex 1 is shorter than the bond length presented in [L'Y(µ-Cl)(py)] 2 , and the Y-N(1) bond length of 2.520(5) Å is in accordance with the corresponding value in [L'Y(µ-Cl)(py)] 2 [11] .…”

“…In general, the metathesis of yttrium halides with lithium amides or alkyls should be a convenient method for the synthesis of yttrium complexes bearing various initiating groups. However, only one paper reported the synthesis of yttrium chloride supported by diaminobis(phenolate) ligand, but the reported yttrium chloride is inactive for many halide substitution reactions [11] .…”

Synthesis, structure and catalytic behavior of yttrium complexes bearing a diaminobis(phenolate) ligand

“…The present result is quite different from that of the reported diaminobis(phenolate) yttrium chloride L' YCl [L'=(2-C 5 H 4 )-CH 2 N{CH 2 -(2-OC 6 H 2 t Bu 2 -3,5)} 2 ], in which the Y -Cl bond was inactive for substitution with LiN(SiMe 3 ) 2 or lithium alkyls [11] . These results revealed that the sidearm donor has a great effect on the reactivity of Ln-Cl bond of diaminobis(phenolate) rare-earth complexes.…”

“…The central metal atom is coordinated 6 times by two oxygen atoms and two nitrogen atoms from the diaminobis(phenolate) ligand, one THF molecule, and one chlorine atom in a distorted octahedron. The overall coordination geometry is similar to the geometries of LLnCl(THF) (Ln = Yb , Er) [15] and L'ScCl(py) [L' =(2-C 5 H 4 )-CH 2 N{CH 2 -(2-OC 6 H 2 -t Bu 2 -3, 5)} 2 ], but different from the geometry of [L'Y(µ-Cl) (py)] 2 [11] , in which each metal center is seven-coordinate. In [11] and LLnCl [15] , when the differences in ionic radii are considered.…”

“…The overall coordination geometry is similar to the geometries of LLnCl(THF) (Ln = Yb , Er) [15] and L'ScCl(py) [L' =(2-C 5 H 4 )-CH 2 N{CH 2 -(2-OC 6 H 2 -t Bu 2 -3, 5)} 2 ], but different from the geometry of [L'Y(µ-Cl) (py)] 2 [11] , in which each metal center is seven-coordinate. In [11] and LLnCl [15] , when the differences in ionic radii are considered. The Y-Cl bond length of 2.562 Å in complex 1 is in agreement with the data found in the other monomeric yttrium chlorides and, apparently shorter than the corresponding bond length in the dimeric [L'Y(µ-Cl)(py)] 2 (2.766 Å) [11] , and comparable to the corresponding value in LLnCl [15] when differences in ionic radii are also considered.…”

“…In [11] and LLnCl [15] , when the differences in ionic radii are considered. The Y-Cl bond length of 2.562 Å in complex 1 is in agreement with the data found in the other monomeric yttrium chlorides and, apparently shorter than the corresponding bond length in the dimeric [L'Y(µ-Cl)(py)] 2 (2.766 Å) [11] , and comparable to the corresponding value in LLnCl [15] when differences in ionic radii are also considered. The Y-N(2) bond length of 2.546(6) Å in complex 1 is shorter than the bond length presented in [L'Y(µ-Cl)(py)] 2 , and the Y-N(1) bond length of 2.520(5) Å is in accordance with the corresponding value in [L'Y(µ-Cl)(py)] 2 [11] .…”

“…In general, the metathesis of yttrium halides with lithium amides or alkyls should be a convenient method for the synthesis of yttrium complexes bearing various initiating groups. However, only one paper reported the synthesis of yttrium chloride supported by diaminobis(phenolate) ligand, but the reported yttrium chloride is inactive for many halide substitution reactions [11] .…”

Synthesis, structure and catalytic behavior of yttrium complexes bearing a diaminobis(phenolate) ligand

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