2018
DOI: 10.1002/chem.201803265
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Countercation Effect on CO2 Binding to Oxo Titanate with Bulky Anilide Ligands

Abstract: This work focuses on nucleophilic activation of CO2 at the anionic terminal oxo titanium tris(anilide) complexes [(Solv)nM][OTi(N[tBu]Ar)3]m with M=Li, Na, K, Mg, MgMe, AlCl2, AlI2; Ar=3,5‐Me2C6H3; Solv=Et2O, THF, 12‐crown‐4, 2,2,2‐cryptand; n, m=1–2. The CO2 binding strength to the terminal oxo ligand of [OTi(N[tBu]Ar)3]− ([1]−) and the stability of the resulting carbonate moiety [O2COTi(N[tBu]Ar)3]− ([2]−) are highly dependent on the Lewis acidity of the countercation. We report herein on CO2 binding as a fu… Show more

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Cited by 12 publications
(11 citation statements)
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References 53 publications
(79 reference statements)
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“…Structure-bonding representation of CO2 binding in µ-Z fashion to Ti2Pn † 2. R = Si i Pr3 [40,94]. The only other significant contribution to small molecule activation chemistryprovided by organometallic pentalene complexes comes from recent reports of the permethylpentalene group(IV) metal hydrocarbyl complexes, (η 8 -Pn * )TiR2; R = Me, CH2Ph and (η 8 -Pn * )M(η 3 -C3H5)2; M = Zr, Hf and investigations into their reactions with CO2.…”
mentioning
confidence: 99%
“…Structure-bonding representation of CO2 binding in µ-Z fashion to Ti2Pn † 2. R = Si i Pr3 [40,94]. The only other significant contribution to small molecule activation chemistryprovided by organometallic pentalene complexes comes from recent reports of the permethylpentalene group(IV) metal hydrocarbyl complexes, (η 8 -Pn * )TiR2; R = Me, CH2Ph and (η 8 -Pn * )M(η 3 -C3H5)2; M = Zr, Hf and investigations into their reactions with CO2.…”
mentioning
confidence: 99%
“…Consistently, after removal of all volatiles a ν CO stretching band ([L t Bu Ni I −CO]) was hardly detectable in the ATR‐IR spectrum of the product mixture, confirming that the reaction of I with TMS‐OTf leads to the generation of CO as a gas. Altogether these investigations thus show, that the contact of I with electrophiles leads to the direct formation of CO, which is of interest also considering that the CO 2 2− ligand in I is derived from formate: Liberation of CO from HOOCH is known to occur in reactions with strong acids, however, there are only rather few examples, where formate coordinated to early transition metals (Ti, [12, 20] W [21] ) releases CO upon deprotonation.…”
Section: Resultsmentioning
confidence: 75%
“…In particular it is unclear, in which step CO is liberated and what the exact role of the iron ion as a Lewis acid (LA) is. At the same time, knowledge on questions like the latter could form the basis for the rational design of artificial systems, which accomplish the LA‐assisted activation of CO 2 [10–14] …”
Section: Introductionmentioning
confidence: 99%
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