Wim T. Klooster scite author profile

Boraneamines tend to have close N-H δ+ ‚‚‚ δ-H-B contacts as a result of the intermolecular interaction of the NH proton with the BH bond by a novel type of hydrogen bond (the dihydrogen bond). A CSD structural search provides characteristic metric data for the interaction: the H‚‚‚H distance is in the range 1.7-2.2 Å, and the N-H‚‚‚H group tends to be linear while B-H‚‚‚H tends to be bent. The reported X-ray structure of BH 3 NH 3 seemed to provide a singular exception in having bent N-H‚‚‚H and linear B-H‚‚‚H. Our neutron diffraction structure of BH 3 NH 3 now shows that the B and N atoms must be reversed from the assignment previously published. With the correct assignment we find the expected bent B-H‚‚‚H and linear N-H‚‚‚H arrangement in the closest intermolecular N-H‚‚‚H-B interaction (d HH ) 2.02 Å).

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Dihydrogen with Frequency of Motion Near the¹H Larmor Frequency. Solid-State Structures and Solution NMR Spectroscopy of Osmium Complexestrans-[Os(H··H)X(PPh₂CH₂CH₂PPh₂)₂]⁺(X = Cl, Br)

Maltby

et al. 1996

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A high-yield route to the new complexes OsBr2(dppe)2 and trans-OsHBr(dppe)2 starting from (NH4)2[OsBr6] is described. The new 5-coordinate complexes [OsX(dppe)2]PF6 (X = Cl (8Os) and X = Br (9Os)) are prepared by reaction of cis-OsX2(dppe)2 with NaPF6. Complexes 8Os and 9Os consist of distorted trigonal bipyramidal cations with “Y”-shaped equatorial planes. They react in CH2Cl2 with H2 or HD (1 atm) to give complexes trans-[Os(H··H)X(dppe)2]PF6 (X = Cl (1OsPF6), X = Br (2OsPF6)) or trans-[Os(H··D)X(dppe)2]PF6, respectively. The last complexes have J(H,D) = 13.9 and 13.7 Hz, respectively. The BF4 - salts of these complexes, 1OsBF4 and 2OsBF4, respectively, are prepared by reacting trans-OsHX(dppe)2 with HBF4·Et2O or DBF4·Et2O. These complexes are characterized by NMR, IR, and FAB MS. The single-crystal X-ray and neutron diffraction studies of 1OsPF6 revealed an elongated H··H ligand with d HH = 1.11(6) (X-ray) or 1.22(3) Å (neutron) occupying one site in an octahedral complex. The X-ray diffraction study of 2OsBF4 produced a similar structure with d HH = 1.13(8) Å. One fluorine of the anion in each structure is positioned near the acidic H2 ligand. A linear relationship between d HH and J(H,D) for many dihydrogen complexes is used to indicate that complexes 1Os and 2Os have H−H distances of about 1.2 Å in solution. Plots of ln(T 1) versus inverse temperature for 1Os and 2Os are distorted from the usual “V” shape, suggesting that the rotational frequency of the H2 ligand is near that of the Larmor frequency. Therefore the d HH for 1Os is between the values of 1.04 and 1.31 Å calculated from the T 1(min) for fast and slow spinning H2, respectively. The chloride ligand in trans-[Os(H··H)Cl(L)2]+ buffers the effect of changing the cis ligands L from dppe to depe to dcpe so that there is little change in the H−H distance. Complexes 1Os and 2Os have pK a values of 7.4 and 5.4, respectively, while trans-[Os(H2)H(dppe)2]+ is much less acidic with a pK a of 13.6. These pK a values and some E 1/2 values are used to show that 1Os and 2Os are dihydride-like even though they have relatively short H−H distances. Properties of trans-[Os(H··H)Cl(depe)2]BF4 (3Os) are also reported.

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A Cyclometalated Resting State for a Reactive Molybdenum Amide: Favorable Consequences of β-Hydrogen Elimination Including Reductive Cleavage, Coupling, and Complexation

Tsai¹,

Johnson²,

Mindiola³

et al. 1999

J. Am. Chem. Soc.

134

142

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Wim T. Klooster

Study of the N−H···H−B Dihydrogen Bond Including the Crystal Structure of BH₃NH₃ by Neutron Diffraction

Dihydrogen with Frequency of Motion Near the¹H Larmor Frequency. Solid-State Structures and Solution NMR Spectroscopy of Osmium Complexestrans-[Os(H··H)X(PPh₂CH₂CH₂PPh₂)₂]⁺(X = Cl, Br)

A Cyclometalated Resting State for a Reactive Molybdenum Amide: Favorable Consequences of β-Hydrogen Elimination Including Reductive Cleavage, Coupling, and Complexation

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Wim T. Klooster

Study of the N−H···H−B Dihydrogen Bond Including the Crystal Structure of BH3NH3 by Neutron Diffraction

Dihydrogen with Frequency of Motion Near the1H Larmor Frequency. Solid-State Structures and Solution NMR Spectroscopy of Osmium Complexestrans-[Os(H··H)X(PPh2CH2CH2PPh2)2]+(X = Cl, Br)

A Cyclometalated Resting State for a Reactive Molybdenum Amide: Favorable Consequences of β-Hydrogen Elimination Including Reductive Cleavage, Coupling, and Complexation

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Study of the N−H···H−B Dihydrogen Bond Including the Crystal Structure of BH₃NH₃ by Neutron Diffraction

Dihydrogen with Frequency of Motion Near the¹H Larmor Frequency. Solid-State Structures and Solution NMR Spectroscopy of Osmium Complexestrans-[Os(H··H)X(PPh₂CH₂CH₂PPh₂)₂]⁺(X = Cl, Br)