Group 10 and 11 Metal Boratranes (Ni, Pd, Pt, CuCl, AgCl, AuCl, and Au<sup>+</sup>) Derived from a Triphosphine−Borane

The first examples of thermally stable molecular dihydrogen adducts of nickel were synthesized from their dinitrogen adduct precursors, which are themselves among the first examples of Ni(II)-N 2 complexes. The minimal activation of the bound N 2 moieties suggests that these adducts are stabilized predominantly through s-donation from the adduct to the electrophilic metal center. We further show that the bound H 2 ligand can undergo heterolytic cleavage to deliver hydride to the nickel center. The H 2 adducts are of particular interest in the context of hypotheses suggesting that Ni can serve as the site for H 2 binding and heterolytic activation in [NiFe] hydrogenases.

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“…A nickel tris(phosphino)boratrane complex, [TP iPr B]Ni, has been reported by Bourissou and co-workers 24 and can be regarded as …”

Section: Comparison To An Isoelectronic Ni Boratrane Systemmentioning

confidence: 97%

Thermally stable N2 and H2 adducts of cationic nickel(ii)

Tsay

Peters

2012

Chem. Sci.

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“…An example of the latter is a series of three copper boratranes with Cu reduced from cationic(1+) to neutral to anionic(1−) [153]. The strength of a TM LB interaction increases more profoundly down a group [154]. An example [150] of a practically single-bond order is in Fig.…”

Section: Os and The Electron Configuration Of Tmmentioning

confidence: 99%

“…The supported TM → Z complexes include bis-or tris-(methimazolyl)boranes and phosphine boranes, with main contributions from the groups of Hill [324], Parkin [325], Bourissou [154], and more recently of Mösch-Zanetti [326] and Nakazawa [327]. Contemporary examples of unsupported structurally characterized TM → Z complexes are chronicled in a remarkable series of articles by Braunschweig and co-workers utilizing the electron-rich, two-coordinate Pt(PCy 3 ) 2 (Cy = cyclohexyl) or Pt(PCy 3 )(IMes) [IMes = 1,3-bis(2,4,6-trimethylphenyl)imidazole-2-ylidene] fragments.…”

Section: C-3 Direct Quantum-chemical Calculation Of Osmentioning

confidence: 99%

Toward a comprehensive definition of oxidation state (IUPAC Technical Report)

Karen

McArdle

Takats

2014

Pure and Applied Chemistry

111

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A generic definition of oxidation state (OS) is formulated: "The OS of a bonded atom equals its charge after ionic approximation". In the ionic approximation, the atom that contributes more to the bonding molecular orbital (MO) becomes negative. This sign can also be estimated by comparing Allen electronegativities of the two bonded atoms, but this simplification carries an exception when the more electronegative atom is bonded as a Lewis acid. Two principal algorithms are outlined for OS determination of an atom in a compound; one based on composition, the other on topology. Both provide the same generic OS because both the ionic approximation and structural formula obey rules of stable electron configurations. A sufficiently simple empirical formula yields OS via the algorithm of direct ionic approximation (DIA) by these rules. The topological algorithm works on a Lewis formula (for a molecule) or a bond graph (for an extended solid) and has two variants. One assigns bonding electrons to more electronegative bond partners, the other sums an atom's formal charge with bond orders (or bond valences) of sign defined by the ionic approximation of each particular bond at the atom. A glossary of terms and auxiliary rules needed for determination of OS are provided, illustrated with examples, and the origins of ambiguous OS values are pointed out. An electrochemical OS is suggested with a nominal value equal to the average OS for atoms of the same element in a moiety that is charged or otherwise electrochemically relevant.

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“…Firstly, the absorption band can easily be generated from the light-energy absorption of Pt catalyst in UV region. 17,44 Second, even the mirror reflection from the sheet surface plays a role in decreasing UV transmittance.…”

Section: Uv Transmittance Measurementmentioning

confidence: 99%

Stepwise cure and properties of silicone resin for high‐ultraviolet‐transmission optical elements

Li³

et al. 2015

J of Applied Polymer Sci

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A new high-ultraviolet (UV)-transmission silicone-resin polymeric material was prepared via curing during hydrosilylation of tetramethyltetravinylcyclotetrasiloxane with tetramethylcyclotetrasiloxane by a liquid-surface supernatant method, using a stepwise heating program to avoid spontaneous combustion of the reaction mixture. The relationships were investigated in detail between reactive groups, cross-linking density, mechanical and UV-transmission properties. For this purpose, UV transmittance and dynamic mechanical properties, respectively, of the silicone resin were measured with UV-visible spectrophotometry and dynamic mechanical thermal analysis. In addition, surface roughness was evaluated with an atomic force microscope as well as an interferometer. The curing process was monitored by Fourier transform infrared spectroscopy and rotational rheometry. The cyclic silicone oils were compared with linear ones in structure and product properties. The results indicated that stepwise temperature control during curing process was particularly indispensible due to the presence of active SiAH bonds, and that the silicone resin of high modulus, high UV transmittance (92.7%) and low surface-roughness was largely homogeneous in cross-linking points distribution.

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Group 10 and 11 Metal Boratranes (Ni, Pd, Pt, CuCl, AgCl, AuCl, and Au⁺) Derived from a Triphosphine−Borane

Cited by 218 publications

References 103 publications

Thermally stable N2 and H2 adducts of cationic nickel(ii)

Thermally stable N2 and H2 adducts of cationic nickel(ii)

Toward a comprehensive definition of oxidation state (IUPAC Technical Report)

Stepwise cure and properties of silicone resin for high‐ultraviolet‐transmission optical elements

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Group 10 and 11 Metal Boratranes (Ni, Pd, Pt, CuCl, AgCl, AuCl, and Au+) Derived from a Triphosphine−Borane

Cited by 218 publications

References 103 publications

Thermally stable N2 and H2 adducts of cationic nickel(ii)

Thermally stable N2 and H2 adducts of cationic nickel(ii)

Toward a comprehensive definition of oxidation state (IUPAC Technical Report)

Stepwise cure and properties of silicone resin for high‐ultraviolet‐transmission optical elements

Contact Info

Product

Resources

About

Group 10 and 11 Metal Boratranes (Ni, Pd, Pt, CuCl, AgCl, AuCl, and Au⁺) Derived from a Triphosphine−Borane