Qian Shu Li scite author profile

The prototypal hexacoordinate carbon (phC) molecule, CB6 2- (D 6 h ), can be annulated by inserting arenes, olefins, or other one or two atom bridging groups into a perimeter B−B bond. Two single-atom units also can bridge opposite CB6 edges. These strategies allow the design of limitless phC derivatives based on CB6 as a building block unit. Illustrative examples, shown to be viable computationally, offer possibilities for experimental realization. These phC's involve multicenter deltahedral σ bonding, common for boron but unusual for carbon, in the ring planes, as well as π delocalization.

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DFT study of the rate constants of the reactions CHCl_mF_3−m + Cl = CCl_mF_3−m + HCl (m = 3 − 1)

Wang

2002

Phys. Chem. Chem. Phys.

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Spectroscopic Detection and Theoretical Confirmation of the Role of Cr₂(CO)₅(C₅R₅)₂ and ·Cr(CO)₂(ketene)(C₅R₅) as Intermediates in Carbonylation of NNCHSiMe₃ to OCCHSiMe₃ by ·Cr(CO)₃(C₅R₅) (R = H, CH₃)

Fortman

Kégl

et al. 2007

J. Am. Chem. Soc.

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Conversion of N=N=CHSiMe3 to O=C=CHSiMe3 by the radical complexes .Cr(CO)3C5R5 (R = H, CH3) derived from dissociation of [Cr(CO)3(C5R5)]2 have been investigated under CO, Ar, and N2 atmospheres. Under an Ar or N2 atmosphere the reaction is stoichiometric and produces the Cr[triple bond]Cr triply bonded complex [Cr(CO)2(C5R5)]2. Under a CO atmosphere regeneration of [Cr(CO)3(C5R5)]2 (R = H, CH3) occurs competitively and conversion of diazo to ketene occurs catalytically as well as stoichiometrically. Two key intermediates in the reaction, .Cr(CO)2(ketene)(C5R5) and Cr2(CO)5(C5R5)2 have been detected spectroscopically. The complex .Cr(13CO)2(O=13C=CHSiMe3)(C5Me5) has been studied by electron spin resonance spectroscopy in toluene solution: g(iso) = 2.007; A(53Cr) = 125 MHz; A(13CO) = 22.5 MHz; A(O=13C=CHSiMe3) = 12.0 MHz. The complex Cr2(CO)5(C5H5)2, generated in situ, does not show a signal in its 1H NMR and reacts relatively slowly with CO. It is proposed to be a ground-state triplet in keeping with predictions based on high level density functional theory (DFT) studies. Computed vibrational frequencies are also in good agreement with experimental data. The rates of CO loss from 3Cr2(CO)5(C5H5)2 producing 1[Cr(CO)2(C5H5)]2 and CO addition to 3Cr2(CO)5(C5H5)2 producing 1[Cr(CO)3(C5H5)]2 have been measured by kinetics and show DeltaH approximately equal 23 kcal mol(-1) for both processes. Enthalpies of reduction by Na/Hg under CO atmosphere of [Cr(CO)n(C5H5)]2 (n = 2,3) have been measured by solution calorimetry and provide data for estimation of the Cr[triple bond]Cr bond strength in [Cr(CO)2(C5H5)]2 as 72 kcal mol(-1). The complex [Cr(CO)2(C5H5)]2 does not readily undergo 13CO exchange at room temperature or 50 degrees C implying that 3Cr2(CO)5(C5H5)2 is not readily accessed from the thermodynamically stable complex [Cr(CO)2(C5H5)]2. A detailed mechanism for metalloradical based conversion of diazo and CO to ketene and N2 is proposed on the basis of a combination of experimental and theoretical data.

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Qian Shu Li

Myriad Planar Hexacoordinate Carbon Molecules Inviting Synthesis

DFT study of the rate constants of the reactions CHCl_mF_3−m + Cl = CCl_mF_3−m + HCl (m = 3 − 1)

Spectroscopic Detection and Theoretical Confirmation of the Role of Cr₂(CO)₅(C₅R₅)₂ and ·Cr(CO)₂(ketene)(C₅R₅) as Intermediates in Carbonylation of NNCHSiMe₃ to OCCHSiMe₃ by ·Cr(CO)₃(C₅R₅) (R = H, CH₃)

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Qian Shu Li

Myriad Planar Hexacoordinate Carbon Molecules Inviting Synthesis

DFT study of the rate constants of the reactions CHClmF3−m + Cl = CClmF3−m + HCl (m = 3 − 1)

Spectroscopic Detection and Theoretical Confirmation of the Role of Cr2(CO)5(C5R5)2 and ·Cr(CO)2(ketene)(C5R5) as Intermediates in Carbonylation of NNCHSiMe3 to OCCHSiMe3 by ·Cr(CO)3(C5R5) (R = H, CH3)

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Resources

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DFT study of the rate constants of the reactions CHCl_mF_3−m + Cl = CCl_mF_3−m + HCl (m = 3 − 1)

Spectroscopic Detection and Theoretical Confirmation of the Role of Cr₂(CO)₅(C₅R₅)₂ and ·Cr(CO)₂(ketene)(C₅R₅) as Intermediates in Carbonylation of NNCHSiMe₃ to OCCHSiMe₃ by ·Cr(CO)₃(C₅R₅) (R = H, CH₃)