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Synthesis, Structure, and Reactivity of Mononuclear Re(I) Oximato Complexes

Cuesta, Luciano ; Huertos, Miguel A. ; Morales, Dolores ; [et al.]

American Chemical Society (ACS) ; 2007

In: Inorganic Chemistry Vol. 46, No. 7 ( 2007-04-01), p. 2836-2845

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In: Inorganic Chemistry, American Chemical Society (ACS), Vol. 46, No. 7 ( 2007-04-01), p. 2836-2845

Type of Medium: Online Resource

ISSN: 0020-1669 , 1520-510X

URL: Article

DOI: 10.1021/ic062168c

DOI: 10.1021/ic062168c.s001

RVK:

VA 4680

Language: English

Publisher: American Chemical Society (ACS)

Publication Date: 2007

detail.hit.zdb_id: 7558-9

detail.hit.zdb_id: 1484438-2

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Experimental and DFT studies on Hexacoordinated acyl(alkyl)and Pentacooordinated Hydroxyalkyl(phosphinite)erhodium(III). Catalytic Hydrolysis of Ammonia Borane

Azpeitia, Susan ; Mendicute‐Fierro, Claudio ; Huertos, Miguel A. ; [et al.]

Wiley ; 2021

In: European Journal of Inorganic Chemistry Vol. 2021, No. 9 ( 2021-03-05), p. 879-891

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In: European Journal of Inorganic Chemistry, Wiley, Vol. 2021, No. 9 ( 2021-03-05), p. 879-891

Abstract: [Rh(nbd)Cl] 2 (nbd=norbornadiene) reacts with quinoline‐8‐carbaldehyde (C 9 H 6 NCHO) and pyrazole (Hpz) affording, depending on Rh/Hpz ratio, acyl‐alkyl [Rh(μ‐Cl)(C 9 H 6 NCO)(Hpz)(σ‐C 7 H 9 )] 2 ( 1 ) or [RhCl(C 9 H 6 NCO)(Hpz) 2 (σ‐norbornenyl)] ( 2 ), stereoselectively as confirmed by DFT calculations. Hydrogen bond between NH‐pyrazole and O‐acyl occurs. 1 and 2 react with diphenylphosphine oxide (SPO) giving 16e [RhCl(C 9 H 6 NC(nbyl))(Ph 2 PO)(Hpz)] ( 3 ) through SPO κ 1 ‐P‐coordination, C−C bond coupling between acyl and norbornenyl and outer‐sphere O(P)‐to‐O(C) hydrogen transfer. 3 shows distorted trigonal bipyramidal structure with weak intramolecular (C)−OH⋅⋅⋅O(=P) and NH⋅⋅⋅Cl hydrogen bonds. DFT calculations indicate this 16e structure being favoured by σ‐ and π‐type orbital multi‐overlapping between pyrazole and both the OH⋅⋅⋅O and chlorine and by intermolecular forces in the crystal. Solutions of 3 contain an equilibrium between trigonal bipyramid and a square‐planar pyramid with OH interacting with phosphoryl and NH, confirmed by DFT 13 C NMR calculations. 1 is very efficient homogeneous catalyst for H 3 N−BH 3 hydrolysis to release hydrogen under air.

Type of Medium: Online Resource

ISSN: 1434-1948 , 1099-0682

URL: Issue

URL: Article

DOI: 10.1002/ejic.v2021.9

DOI: 10.1002/ejic.202001028

RVK:

VA 4072.5

Language: English

Publisher: Wiley

Publication Date: 2021

detail.hit.zdb_id: 1475009-0

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Dehydrogenative Coupling of a Tertiary Silane Using Wilkinson's Catalyst

Azpeitia, Susan ; Fernández, Belén ; Garralda, María A. ; [et al.]

Wiley ; 2016

In: European Journal of Inorganic Chemistry Vol. 2016, No. 18 ( 2016-06), p. 2891-2895

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In: European Journal of Inorganic Chemistry, Wiley, Vol. 2016, No. 18 ( 2016-06), p. 2891-2895

Abstract: Wilkinson's catalyst [Rh(PPh 3 ) 3 Cl] results active in the dehydrogenative coupling of the tertiary silane SiMeH( o ‐C 6 H 4 SMe) 2 ( L1 ) to give ( o ‐C 6 H 4 SMe) 2 MeSi–SiMe( o ‐C 6 H 4 SMe) 2 ( L2 ). The stoichiometric reaction of [Rh(PPh 3 ) 3 Cl] with L1 affords a new silyl‐hydrido‐Rh III complex [Rh(H){SiMe( o ‐C 6 H 4 SMe) 2 }Cl(PPh 3 )] ( 1 ), which results also active in the dehydrocoupling of L1 . The unsaturated Rh III compound [Rh(H){SiMe( o ‐C 6 H 4 SMe) 2 }(PPh 3 )][BAr F 4 ] ( 2 ) was synthesized by reaction of 1 with NaBAr F 4 and shows lower catalytic activity in this process. Compound 2 reacts with a second equivalent of L1 to form [Rh{SiMe( o ‐C 6 H 4 SMe) 2 } 2 ][BAr F 4 ] ( 3 ), which is inactive in catalysis. Our results allow proposing 1 as an active species in the catalytic reaction and suggesting the formation of 3 as a deactivation process when the unsaturated compound 2 is used as catalyst.

Type of Medium: Online Resource

ISSN: 1434-1948 , 1099-0682

URL: Issue

URL: Article

DOI: 10.1002/ejic.v2016.18

DOI: 10.1002/ejic.201600395

RVK:

VA 4072.5

Language: English

Publisher: Wiley

Publication Date: 2016

detail.hit.zdb_id: 1475009-0

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Steric Effects in the Catalytic Tandem Isomerization‐Hydrosilylation Reaction

Prieto, Unai ; Azpeitia, Susan ; Sebastian, Eider San ; [et al.]

Wiley ; 2021

In: ChemCatChem Vol. 13, No. 5 ( 2021-03-05), p. 1403-1409

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In: ChemCatChem, Wiley, Vol. 13, No. 5 ( 2021-03-05), p. 1403-1409

Abstract: The selective synthesis of linear silanes from remote alkenes is reported. Four new silane‐thioether bidentate proligands [SiMe 2 H( o ‐C 6 H 4 SR)] (R= i Bu, pentyl, benzyl, neopentyl) have been synthesized and used to form unsaturated and cationic 16‐electron hydrido‐silyl‐Rh III complexes. These compounds are efficient catalysts for the tandem catalytic alkene isomerization‐hydrosilylation reaction at room temperature under solvent‐free conditions. The different size of the substituent on the sulfur atom results on a difference in the activity of this tandem reaction. Experimental observations demonstrate that the isomerization process is the rate‐determining step of this catalytic transformation. This process would be of value to the chemical industry because mixtures of internal aliphatic olefins are substantially cheaper and more readily available than the pure terminal isomers.

Type of Medium: Online Resource

ISSN: 1867-3880 , 1867-3899

URL: Issue

URL: Article

DOI: 10.1002/cctc.v13.5

DOI: 10.1002/cctc.202001699

Language: English

Publisher: Wiley

Publication Date: 2021

detail.hit.zdb_id: 2501161-3

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Phosphinothiolates as Ligands for Polyhydrido Copper Nanoclusters

Huertos, Miguel A. ; Cano, Israel ; Bandeira, Nuno A. G. ; [et al.]

Wiley ; 2014

In: Chemistry - A European Journal Vol. 20, No. 49 ( 2014-12-01), p. 16121-16127

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In: Chemistry - A European Journal, Wiley, Vol. 20, No. 49 ( 2014-12-01), p. 16121-16127

Type of Medium: Online Resource

ISSN: 0947-6539

URL: Issue

URL: Article

DOI: 10.1002/chem.v20.49

DOI: 10.1002/chem.201404763

RVK:

VA 1120 ; VA 3507

Language: English

Publisher: Wiley

Publication Date: 2014

detail.hit.zdb_id: 1478547-X

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Cover Picture: Phosphinothiolates as Ligands for Polyhydrido Copper Nanoclusters (Chem. Eur. J. 49/2014)

Huertos, Miguel A. ; Cano, Israel ; Bandeira, Nuno A. G. ; [et al.]

Wiley ; 2014

In: Chemistry - A European Journal Vol. 20, No. 49 ( 2014-12-01), p. 16009-16009

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In: Chemistry - A European Journal, Wiley, Vol. 20, No. 49 ( 2014-12-01), p. 16009-16009

Type of Medium: Online Resource

ISSN: 0947-6539

URL: Issue

URL: Article

DOI: 10.1002/chem.v20.49

DOI: 10.1002/chem.201490202

RVK:

VA 1120 ; VA 3507

Language: English

Publisher: Wiley

Publication Date: 2014

detail.hit.zdb_id: 1478547-X

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Hydrogen Tunneling in Catalytic Hydrolysis and Alcoholysis of Silanes

Almenara, Naroa ; Garralda, Maria A. ; Lopez, Xabier ; [et al.]

Wiley ; 2022

In: Angewandte Chemie Vol. 134, No. 36 ( 2022-09-05)

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In: Angewandte Chemie, Wiley, Vol. 134, No. 36 ( 2022-09-05)

Abstract: An unprecedented quantum tunneling effect has been observed in catalytic Si−H bond activations at room temperature. The cationic hydrido‐silyl‐iridium(III) complex, {Ir[SiMe(o‐C 6 H 4 SMe) 2 ](H)(PPh 3 )(THF)}[BAr F 4 ], has proven to be a highly efficient catalyst for the hydrolysis and the alcoholysis of organosilanes. When triethylsilane was used as a substrate, the system revealed the largest kinetic isotopic effect (KIE Si−H/Si−D =346±4) ever reported for this type of reaction. This unexpectedly high KIE, measured at room temperature, together with the calculated Arrhenius preexponential factor ratio (A H /A D =0.0004) and difference in the observed activation energy [( E − E )=34.07 kJ mol −1 ] are consistent with the participation of quantum tunneling in the catalytic process. DFT calculations have been used to unravel the reaction pathway and identify the rate‐determining step. Aditionally, isotopic effects were considered by different methods, and tunneling effects have been calculated to be crucial in the process.

Type of Medium: Online Resource

ISSN: 0044-8249 , 1521-3757

URL: Issue

URL: Article

DOI: 10.1002/ange.v134.36

DOI: 10.1002/ange.202204558

RVK:

VA 2100

RVK:

VN 5020

Language: English

Publisher: Wiley

Publication Date: 2022

detail.hit.zdb_id: 505868-5

detail.hit.zdb_id: 506609-8

detail.hit.zdb_id: 514305-6

detail.hit.zdb_id: 505872-7

detail.hit.zdb_id: 1479266-7

detail.hit.zdb_id: 505867-3

detail.hit.zdb_id: 506259-7

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Front Cover: Dehydrogenative Coupling of a Tertiary Silane Using Wilkinson's Catalyst (Eur. J. Inorg. Chem. 18/2016)

Azpeitia, Susan ; Fernández, Belén ; Garralda, María A. ; [et al.]

Wiley ; 2016

In: European Journal of Inorganic Chemistry Vol. 2016, No. 18 ( 2016-06), p. 2862-2862

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In: European Journal of Inorganic Chemistry, Wiley, Vol. 2016, No. 18 ( 2016-06), p. 2862-2862

Type of Medium: Online Resource

ISSN: 1434-1948 , 1099-0682

URL: Issue

URL: Article

DOI: 10.1002/ejic.v2016.18

DOI: 10.1002/ejic.201670181

RVK:

VA 4072.5

Language: English

Publisher: Wiley

Publication Date: 2016

detail.hit.zdb_id: 1475009-0

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Hydrogen Tunneling in Catalytic Hydrolysis and Alcoholysis of Silanes

Almenara, Naroa ; Garralda, Maria A. ; Lopez, Xabier ; [et al.]

Wiley ; 2022

In: Angewandte Chemie International Edition Vol. 61, No. 36 ( 2022-09-05)

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In: Angewandte Chemie International Edition, Wiley, Vol. 61, No. 36 ( 2022-09-05)

Type of Medium: Online Resource

ISSN: 1433-7851 , 1521-3773

URL: Issue

URL: Article

DOI: 10.1002/anie.v61.36

DOI: 10.1002/anie.202204558

RVK:

VA 2100

Language: English

Publisher: Wiley

Publication Date: 2022

detail.hit.zdb_id: 2011836-3

detail.hit.zdb_id: 123227-7

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From Remote Alkenes to Linear Silanes or Allylsilanes depending on the Metal Center

Azpeitia, Susan ; Rodriguez‐Dieguez, Antonio ; Garralda, María A. ; [et al.]

Wiley ; 2018

In: ChemCatChem Vol. 10, No. 10 ( 2018-05-24), p. 2210-2213

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In: ChemCatChem, Wiley, Vol. 10, No. 10 ( 2018-05-24), p. 2210-2213

Abstract: The selective synthesis of linear silanes or allylsilanes from remote alkenes was explored. The cationic, unsaturated, 16‐electron hydrido–silyl–Rh III complex was found to be an efficient catalyst for a tandem catalytic alkene isomerization–hydrosilylation reaction at room temperature under solvent‐free conditions. The analogous hydrido–silyl–Ir III complex was selective for dehydrogenative silylation, which led to the formation of terminal allylsilanes.

Type of Medium: Online Resource

ISSN: 1867-3880 , 1867-3899

URL: Issue

URL: Article

DOI: 10.1002/cctc.v10.10

DOI: 10.1002/cctc.201800159

Language: English

Publisher: Wiley

Publication Date: 2018

detail.hit.zdb_id: 2501161-3

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