A Hydrocarbon‐Soluble Lithium Hydride Complex

Stasch, Andreas

doi:10.1002/ange.201108134

Cited by 12 publications

(7 citation statements)

References 62 publications

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“…The Li À N(pz) bond lengths in the characterized examples are in a similar range to previously reported examples of (pz)Li compounds. [15,16] The Li···H contacts measure around 2 and are close to those of previously characterized examples, [8][9][10][11][12] and to that in cubic Angewandte Chemie LiH (ca. 2.04 ).…”

supporting

confidence: 61%

“…However, product mixtures were formed across the investigated pz/hydride ratio range. The addition of THF to hydride-rich solutions reproducibly led to low to moderate yields of isolated [Li(thf) 4 ][(pz) 12 Li 37 -(thf) 2 H 26 ] (4; Scheme 1 and Figure 1). [14] The same complex 4 was obtained by recrystallizing a crude product rich in [(pz) 12 Li 37 H 25 ] (3) from THF/n-hexane.…”

mentioning

confidence: 99%

“…[9,10] The structure of [(pz) 10 [14] and the salt [Li(thf) [14] are based on lattice cutout B (Figure 2 Figure S12). For the [(pz) 12 [14] which suggests that this is the most reactive site of the complex.…”

mentioning

confidence: 99%

“…[11] We have recently used the silane method to synthesize hydrocarbon-soluble [(LLi) 4 (LiH) 4 ] (L= DipNPPh 2 , Dip = 2,6-iPr 2 C 6 H 3 ), which contains a central (LiH) 4 cube. [12] The complex was found to undergo hydrolithiation reactions with activated unsaturated organic substrates, [12,13] although the stabilizing phosphinoamide ligand L can perform competing addition reactions with the substrates. [13] Herein, we report the generation and structural characterization of a family of up to nanometersized, well-defined pyrazolato lithium hydride clusters from hydrocarbon solutions in a bottom-up approach.…”

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confidence: 99%

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Well‐Defined, Nanometer‐Sized LiH Cluster Compounds Stabilized by Pyrazolate Ligands

Stasch

2013

Angew Chem Int Ed

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The assembly of well-defined large cluster compounds of ionic light metal hydrides is a synthetic challenge and of importance for synthesis, catalysis, and hydrogen storage. The synthesis and characterization of a series of neutral and anionic pyrazolate-stabilized lithium hydride clusters with inorganic cores in the nanometer region is now reported. These complexes were prepared in a bottom-up approach using alkyl lithium and lithium pyrazolate mixtures with silanes in hydrocarbon solutions. Structural characterization using synchrotron radiation revealed isolated cubic clusters that contain up to 37 Li(+) cations and 26 H(-) ions. Substituted pyrazolate ligands were found to occupy all corners and some edges for the anionic positions.

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confidence: 61%

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confidence: 99%

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confidence: 99%

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confidence: 99%

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Well‐Defined, Nanometer‐Sized LiH Cluster Compounds Stabilized by Pyrazolate Ligands

Stasch

2013

Angew Chem Int Ed

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“…Furthermore, cationic [L 6 Li 8 H] + (L=chelating anionic ligand) and neutral [L 6 Li 7 H] complexes with an interstitial hydride ion have been prepared,9, 10 and the structure of the large mixed lithium alcoholate/hydride cluster [( t BuOLi) 16 (LiH) 17 ] was reported 11. We have recently used the silane method to synthesize hydrocarbon‐soluble [(LLi) 4 (LiH) 4 ] (L=DipNPPh 2 , Dip=2,6‐ i Pr 2 C 6 H 3 ), which contains a central (LiH) 4 cube 12. The complex was found to undergo hydrolithiation reactions with activated unsaturated organic substrates,12, 13 although the stabilizing phosphinoamide ligand L can perform competing addition reactions with the substrates 13.…”

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confidence: 99%

Sensitive Approach for Voltammetric Determination of Carbendazim Based on the Use of an Anionic Surfactant

et al. 2016

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This report describes by the first time the use of a commercial screen‐printed carbon electrode modified with multi‐walled carbon nanotubes for voltammetric determination of the fungicide carbendazim in the presence of an anionic surfactant. The oxidation of the pesticide showed two anodic and two catodic peaks over a quasi‐reversible system. The quantitative studies were performed using square‐wave voltammetry technique at anodic direction, in that an oxidation peak was observed at +0.98 V vs. Ag/AgCl. Buffer, pH and voltammetric parameters were investigated and optimized. The use of the anionic surfactant sodium dodecyl sulphate provided a significative improvement on analytical sensitivity and its influence also was evaluated. The best conditions for analysis were achieved using a medium of 0.04 mol L−1 Britton‐Robinson buffer at pH 4.00 containing 6.04×10−4 mol L−1 of surfactant. A calibration curve with good linearity (R=0.999) was obtained and the limit of detection achieved was 1.40×10−8 mol L−1 (2.7 ppb). Lastly, the developed method was successfully applied for determination of carbendazim in a spiked orange juice sample and a recovery of 101.7 % was obtained. The results were compared with HPLC technique with good agreement. Based on the data presented, the proposed method shows great promise to be applied in routine analysis of carbendazim in food samples and the approach based on the anionic surfactant effect can be an improvement for other applications.

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Well‐Defined, Nanometer‐Sized LiH Cluster Compounds Stabilized by Pyrazolate Ligands

Stasch

2014

Angewandte Chemie

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The assembly of well‐defined large cluster compounds of ionic light metal hydrides is a synthetic challenge and of importance for synthesis, catalysis, and hydrogen storage. The synthesis and characterization of a series of neutral and anionic pyrazolate‐stabilized lithium hydride clusters with inorganic cores in the nanometer region is now reported. These complexes were prepared in a bottom‐up approach using alkyl lithium and lithium pyrazolate mixtures with silanes in hydrocarbon solutions. Structural characterization using synchrotron radiation revealed isolated cubic clusters that contain up to 37 Li+ cations and 26 H− ions. Substituted pyrazolate ligands were found to occupy all corners and some edges for the anionic positions.

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A Hydrocarbon‐Soluble Lithium Hydride Complex

Cited by 12 publications

References 62 publications

Well‐Defined, Nanometer‐Sized LiH Cluster Compounds Stabilized by Pyrazolate Ligands

Well‐Defined, Nanometer‐Sized LiH Cluster Compounds Stabilized by Pyrazolate Ligands

Sensitive Approach for Voltammetric Determination of Carbendazim Based on the Use of an Anionic Surfactant

Well‐Defined, Nanometer‐Sized LiH Cluster Compounds Stabilized by Pyrazolate Ligands

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