Ti(vinyl)(OSi-t-Bu3)2(NHSi-t-Bu3) | 154030-88-3

分子结构分类

有机化合物 - 有机金属化合物 - 有机类金属化合物

中文名称

——

中文别名

——

英文名称

Ti(vinyl)(OSi-t-Bu3)2(NHSi-t-Bu3)

英文别名

——

CAS

154030-88-3

化学式

C₃₈H₈₅NO₂Si₃Ti

mdl

——

分子量

720.235

InChiKey

ZTYHTYTTYLSFCT-UHFFFAOYSA-N

BEILSTEIN

——

EINECS

——

计算性质

辛醇/水分配系数(LogP)：

13.37
重原子数：

45
可旋转键数：

9
环数：

0.0
sp3杂化的碳原子比例：

0.95
拓扑面积：

47.1
氢给体数：

1
氢受体数：

3

反应信息

作为反应物：

描述：

Ti(vinyl)(OSi-t-Bu3)2(NHSi-t-Bu3) 、氘代苯在 (CH₃)3SiOSi(CH₃)3 作用下，以氘代苯为溶剂，生成 (tri-tert-butylsilylamido-d1)bis(tri-tert-butylsilyloxy)(phenyl-d5)titanium

参考文献：

名称：

(silox)2(tBu3SiND)TiR + RH (silox =tBu3SiO) 的分子间和分子内实验和计算的平衡同位素效应：推断的 RH/D 添加到瞬态 (silox)2TiNSitBu3 的动力学同位素效应

摘要：

本文讨论了分子间和分子内实验和计算的平衡同位素效应。

DOI：

10.1021/ja000112q
作为产物：

描述：

生成 Ti(vinyl)(OSi-t-Bu3)2(NHSi-t-Bu3)

参考文献：

名称：

Energetics of C-H Bond Activation and Ethylene Binding to d0 Transient (silox)2Ti:NSitBu3

摘要：

DOI：

10.1021/ja00084a082

点击查看最新优质反应信息

文献信息

Selectivities in Hydrocarbon Activation: Kinetic and Thermodynamic Investigations of Reversible 1,2-RH-Elimination from (silox)2(tBu3SiNH)TiR (silox = tBu3SiO)

作者：Jordan L. Bennett、Peter T. Wolczanski

DOI：10.1021/ja9707419

日期：1997.11.1

Addition of 2.0 equiv of Na(silox) to TiCl4(THF)(2) afforded (silox)(2)TiCl2 (1), which yielded (silox)(2)((Bu3SiNH)-Bu-t)TiCl (2-Cl) upon treatment with (Bu3SiNLi)-Bu-t. Grignard or alkyllithium additions to 2-Cl or 1,2-RH-addition to transient (silox)(2)Ti=(NSiBu3)-Bu-t (3) produced (silox)(2)((Bu3SiNH)-Bu-t)TiR (2-R; R = Me, Et, CH2Ph = Bz, CH=CH2 = Vy, Bu-c, Bu-n, Ph, H, Pr-c, (c)Pe, CH2-3,5-Me2C6H3 = Mes, (neo)Hex, (c)Hex, eta(3)-H2CHCH2, eta(3)-H2CCHCHMe). Insertions of C2H4, butadiene, HC2H, and (HC2Bu)-Bu-t into the titanium-hydride bond of 2-H generated (silox)(2)((Bu3SiNH)-Bu-t)TiR (2-R; R = Et, eta(3)-H2CCHCHMe, Vy, E-CH=(CHBu)-Bu-t). Trapping of 3 by donors L afforded (silox)(2)LTi=(NSiBu3)-Bu-t (3-L; L = OEt2, THF (X-ray, two independent molecules: d(Ti=N) = 1.772(3), 1.783(3) Angstrom), py, PMe3, NMe3, NEt3) and metallacycles (silox)(2)((Bu3SiN)-Bu-t)TiCR=CR' (3-RC2R'; RC2R' = HC2H, MeC2Me, EtC2Et, (HC2Bu)-Bu-t) and (silox)(2)((Bu3SiN)-Bu-t)TiCH2CH2 (3-C2H4). Kinetics of 1,2-RH-elimination from 2-R revealed a first-order process (24.8 degrees C): R = Bz < Mes < H < Me (1.54(10) x 10(-5) s(-1)) < (neo)Hex < Et < Bu-n < Bu-c < (c)Pe < (c)Hex < Pr-c < Vy < Ph. Kinetics data, large 1,2-RH/D-elimination KIE's (e.g., MeH/D, 13.7(9), 24.8 degrees C), and Eyring parameters (e.g., 2-Me, Delta H double dagger = 20.2(12) kcal/mol, Delta S double dagger = -12(4) eu) portray a four-center, concerted transition state when the N ... H ... R linkage is nearly linear. Equilibrium measurements led to the following relative standard free energy scale: 2-(c)Hex > 2-(c)Pe > 2-Pr-n similar to 2-Bu-n > 2-(neo)Hex > 2-Et, 2-Bu-c > 2-CH2SiMe3 > 2-Ph > 2-Me > 2-Bz > 2-Pr-c similar to 2-Mes > 2-Vy > 3-C2H4 > 3-NEt3 > 2-H > 3-OEt2 > 3-EtC2Et > 3-MeC2Me > 3-THF > 3-NMe3 > 3-PMe3 > 3-py. A correlation of D(TiR)(rel) to D(RH) revealed greater differences in titanium-carbon bond energies. THF loss from 3-THF allowed a rough estimate of Delta G degrees(3). Using thermochemical cycles, relative activation energies for 1,2-RH-addition were assessed: (c)HexH > (c)PeH > (BuH)-Bu-n > (neo)HexH > EtH > BzH > (BuH)-Bu-c > MesH > MeH > PhH > (PrH)-Pr-c > VyH > 3-C2H4 formation > H-2. On the basis of a parabolic model, C-H bond activation selectivities are influenced by the relative ground state energies of 2-R and a parameter representing the reaction coordinate. A more compressed reaction coordinate for sp(2)- vs sp(3)-substrates eases their activation.
Inter- and Intramolecular Experimental and Calculated Equilibrium Isotope Effects for (silox)2(tBu3SiND)TiR + RH (silox = tBu3SiO): Inferred Kinetic Isotope Effects for RH/D Addition to Transient (silox)2TiNSitBu3

作者：LeGrande M. Slaughter、Peter T. Wolczanski、Thomas R. Klinckman、Thomas R. Cundari

DOI：10.1021/ja000112q

日期：2000.8.23

This article discusses inter- and intramolecular experimental and calculated equilibrium isotope effects.

本文讨论了分子间和分子内实验和计算的平衡同位素效应。
Energetics of C-H Bond Activation and Ethylene Binding to d0 Transient (silox)2Ti:NSitBu3

作者：Jordan L. Bennett、Peter T. Wolczanski

DOI：10.1021/ja00084a082

日期：1994.3

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