Isolable Tin(II) Hydrides Featuring Sterically Undemanding Pincer-Type Ligands and Their Dehydrogenative Sn–Sn Bond Forming Reactions to Distannynes Promoted by Lewis Acidic Tri-<i>sec</i>-butylborane

Lai, Yu-Wei; Chang, Wei-Chieh; Chen, Kuan-Ting; Wu, Dinghong; Li, Han-Jung; Shen, Li-Ching; Kuo, Ting‐Shen; Liu, Hsueh‐Ju

doi:10.1021/acs.inorgchem.1c04019

Cited by 5 publications

(6 citation statements)

References 66 publications

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“…Our recent report indicated that the bulkier d Me pp [2,5-bis(6methylpyridyl)pyrrolato] ligand significantly stabilizes its tin(II) hydride (t 1/2 ∼ 20 days) as compared to smaller dpp Ph (2,5-dipyridyl-3,4-diphenylpyrrolato) ligand (t 1/2 ∼ 4 days) at 25 °C. 34 Second, dihydrogen-bonding (DHB) interactions 35−37 between the ortho-hydrogens on the five phenyl rings of the pyrrolyl donors (H Ph ) and hydride ligand (H Pb ) may have stabilized the Pb−H moiety. In the density functional theory-optimized structure, two H Ph were pointing toward H Pb at a short distance of 2.317 Å (Figure 5a), which was less than the sum of the van der Waals radii of H (2r H = 2.4 Å).…”

Section: Synthesis and Characterizations Of M[1-h] Complexessupporting

confidence: 58%

“…The kinetic stabilization provided by the phenyl groups on the pyrrolyl donor should not be neglected in [1-H] – . Our recent report indicated that the bulkier d Me pp [2,5-bis(6-methylpyridyl)pyrrolato] ligand significantly stabilizes its tin(II) hydride ( t 1/2 ∼ 20 days) as compared to smaller dpp Ph (2,5-dipyridyl-3,4-diphenylpyrrolato) ligand ( t 1/2 ∼ 4 days) at 25 °C . Second, dihydrogen-bonding (DHB) interactions − between the ortho-hydrogens on the five phenyl rings of the pyrrolyl donors (H Ph ) and hydride ligand (H Pb ) may have stabilized the Pb–H moiety.…”

Section: Resultsmentioning

confidence: 99%

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Access to Monomeric Lead(II) Hydrides with Remarkable Thermostability and Their Use in Catalytic Hydroboration of Carbonyl Derivatives

Wang

Liu

et al. 2022

Inorg. Chem.

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We report on the remarkable stability of unprecedented, monomeric lead(II) hydrides M + [LPb(II)H] – (M[1-H]), where L = 2,6-bis(3,5-diphenylpyrrolyl)pyridine and M = (18-crown-6)potassium or ([2.2.2]-cryptand)potassium. The half-life of [K18c6][1-H] of ∼2 days in tetrahydrofuran at 25 °C is significantly longer than those reported for dimeric lead(II) hydrides supported by bulky terphenyl ligands (few hours at low temperatures), which are the only examples known for lead(II) hydride compounds. The presence of a Pb–H bond in [1-H] – was unambiguously identified by multinuclear NMR spectroscopy. Remarkably, a 1H resonance of the hydride ligand was found at δ = 41.43 ppm (1 J PbH = 1312 Hz). For reactivity study, [1-H] – serves as an excellent hydroboration catalyst with high turnover numbers and turnover frequencies for several carbonyl compounds.

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Section: Synthesis and Characterizations Of M[1-h] Complexessupporting

confidence: 58%

Section: Resultsmentioning

confidence: 99%

Access to Monomeric Lead(II) Hydrides with Remarkable Thermostability and Their Use in Catalytic Hydroboration of Carbonyl Derivatives

Wang

Liu

et al. 2022

Inorg. Chem.

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“…Meanwhile, using a smaller amount of reducing agent did not yield the 1e-reduced species in the case of germylene reduction. Compound 1 shows a very long Sn···Sn distance (3.2155(9) Å) compared to a typical Sn–Sn single bond in distannylenes, − even longer by 0.11 Å than the longest one (3.1013(7) Å) ever reported, thus suggesting a different bonding mode. From the crystal structure, computations, EPR spectroscopy, and chemical reactions of 1 , this bonding is proven to be a 2c/1e Sn···Sn bond with a bond order of 0.5, as described below.…”

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confidence: 99%

“…The calculated bond dissociation energy (Δ E ) of [LSn···SnL] •– to [LSn] and [LSn] •– is 43.5 kcal mol –1 in the gas phase (31.9 kcal mol –1 in THF; Table S2), which is larger than that for some of the Sn–Sn single bond in LSnSnL compounds (from ca. 10 to 30 kcal mol –1 ), − suggesting a rather strong bonding. The spin density plot (Figure b,c) demonstrates that the unpaired electron is largely delocalized on the two Sn atoms (0.68 e) with a smaller distribution on the two ligands (0.32 e).…”

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confidence: 99%

“…Unexpectedly, the dinuclear complex [K(THF) 6 ][LSn:•••Sn:L] (1) was obtained with a monoanionic [LSnSnL] − moiety and a separated K(THF) 6 + countercation (Figure 1). In contrast, the desired two-electron (2e) reduced distannylene, [LSn:−Sn:L] 2− , similar to the digermylene 26 was not obtained even when an excess of 32 ever reported, thus suggesting a different bonding mode. From the crystal structure, computations, EPR spectroscopy, and chemical reactions of 1, this bonding is proven to be a 2c/1e Sn•••Sn bond with a bond order of 0.5, as described below.…”

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One-Electron (2c/1e) Tin···Tin Bond Stabilized by ortho-Phenylenediamido Ligands

Chan,

Ying,

et al. 2024

J. Am. Chem. Soc.

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Odd-electron bonds, i.e., the two-center, three-electron (2c/3e), or one-electron (2c/1e) bonds, have attracted tremendous interest owing to their novel bonding nature and radical properties. Herein, complex [K(THF) 6 ][LSn:•••Sn:L] (1), featuring the first and unsupported 2c/1e Sn•••Sn σ-bond with a long distance (3.2155(9) Å), was synthesized by reduction of stannylene [LSn:] (L = N,N-dpp-o-phenylene diamide) with KC 8 . The one-electron Sn−Sn bond in 1 was confirmed by the crystal structure, DFT calculations, EPR spectroscopy, and reactivity studies. This compound can be viewed as a stabilized radical by delocalizing to two metal centers and can readily mediate radical reactions such as C−C coupling of benzaldehyde.

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Revisiting the synthesis of bis(2‐hydroxy‐3,5‐di‐t‐butylphenyl)methanone

Lin

Huang

et al. 2022

J Chinese Chemical Soc

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Described is our effort toward establishing a practical and sustainable synthesis of bis(2‐hydroxy‐3,5‐di‐t‐butylphenyl)methanone. In it, we found the phenol‐aldehyde condensation could be efficiently catalyzed by sulfonic acid‐functionalized microporous carbon spheres (MCS‐SO3H). Additionally, we developed practical and sustainable procedures for the synthesis of the title ligand by applying readily available reagents in lieu of toxic chromium trioxide and fuming boron tribromide.

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Isolable Tin(II) Hydrides Featuring Sterically Undemanding Pincer-Type Ligands and Their Dehydrogenative Sn–Sn Bond Forming Reactions to Distannynes Promoted by Lewis Acidic Tri-sec-butylborane

Cited by 5 publications

References 66 publications

Access to Monomeric Lead(II) Hydrides with Remarkable Thermostability and Their Use in Catalytic Hydroboration of Carbonyl Derivatives

Access to Monomeric Lead(II) Hydrides with Remarkable Thermostability and Their Use in Catalytic Hydroboration of Carbonyl Derivatives

One-Electron (2c/1e) Tin···Tin Bond Stabilized by ortho-Phenylenediamido Ligands

Revisiting the synthesis of bis(2‐hydroxy‐3,5‐di‐t‐butylphenyl)methanone

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