Promoting Frustrated Lewis Pairs for Heterogeneous Chemoselective Hydrogenation via the Tailored Pore Environment within Metal–Organic Frameworks

Niu, Zheng; Zhang, Weijie; Lan, Pui Ching; Aguila, Briana; Ma, Shengqian

doi:10.1002/ange.201903763

Cited by 23 publications

(8 citation statements)

References 37 publications

(25 reference statements)

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“…26 Strong Lewis bases such as alkali-metal amides and phosphides have also proved effective, thus demonstrating the generality of the concept. Although the notion of FLP has also been adapted for heterogeneous reductions, [27][28][29] perhaps the most elegant advancement has been the modification of FLP catalysts for highly enantioselective hydrogenations of a variety of substrates. 30 Cat.…”

mentioning

confidence: 99%

“…These systems provide substrate-selective catalysts that are also stable and recyclable, features that are certainly cost saving. 27,59 Perhaps a richer, more exciting avenue for FLP catalysis lies in the unknown. The ability to activate a wide variety of small molecules suggests possibilities for unrivaled reactivity of substrates traditionally viewed as challenging targets, such as N 2 , CO, and CH 4 .…”

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confidence: 99%

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Catalysis, FLPs, and Beyond

Stephan

2020

Chem

116

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confidence: 99%

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confidence: 99%

Catalysis, FLPs, and Beyond

Stephan

2020

Chem

116

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“…Optimization and Scope of C-H Arylation. To optimize the yield and diastereoselectivity of the C-H arylation reaction, we explored a variety of conditions for arylating trisubstituted piperidine 1a (R 1 = H, R 2 = Me, R 3 = R 4 = Et) with 1,4-dicyanobenzene (DCB) to give 2a (Tables S2 and S3 in the Supporting Information). Ir(ppy)3 (ppy = 2-phenylpyridine) was determined to be the optimal photocatalyst for the α-arylation in agreement with MacMillan's earlier report.…”

Section: Resultsmentioning

confidence: 99%

“…Photoredox catalysis utilizing transition metalpolypyridyl complexes has provided a powerful strategy to access novel reactivity manifolds. 2 Although the utility of αamino radicals has long been appreciated, 3 the MacMillan group provided a seminal study using a transition metal photoredox catalyst for the synthesis of α-branched amines via α-amino radical coupling with electron deficient cyano(hetero)arene derivatives (Scheme 1A). 4 Following this report, many groups have developed transformations using α-amino radicals as the reactive intermediate for additions to alkenes and other unsaturated π-bonds, 5 (hetero)arenes, 6 and other coupling partners.…”

Section: Introductionmentioning

confidence: 99%

Highly Diastereoselective Functionalization of Piperidines by Photoredox Catalyzed C–H Arylation and Epimerization

Walker¹,

Koronkiewicz²,

Chen³

et al. 2019

Preprint

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<div>We report a photoredox catalyzed α-amino C–H arylation reaction of highly substituted piperidine derivatives with electron deficient cyano(hetero)arenes. The scope and limitations of the reaction were explored, with piperidines bearing multiple substitution patterns providing the arylated products in good yields and with high diastereoselectivity. In order to probe the mechanism of the overall transformation, optical and fluorescent spectroscopic methods were used. By employing flash-quench transient absorption spectroscopy, we were able to observe electron transfer processes associated with radical formation beyond the initial excited state Ir(ppy)<sub>3</sub> oxidation. Following the rapid and unselective C–H arylation reaction, a slower epimerization occurs to provide the high diastereomer ratio observed for a large majority of the products. Several stereoisomerically pure products were re-subjected to the reaction conditions, each of which converged to the experimentally observed diastereomer ratios. The observed distribution of diastereomers corresponds to a thermodynamic ratio of isomers based upon their calculated relative energies using density functional theory (DFT).</div>

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“…Upon light irradiation, the organic ligands of MOFs can serve as antennas to harvest light, generate photo-induced electrons and activate the metal centre, thus facilitating the “ligand-to-metal charge-transfer” (LMCT) 17 . More importantly, the micropore environment offers a unique platform to activate the substrates via confined adsorption arising from the specific host–guest interactions 18 – 20 . The impact of host–guest interactions on the activation of adsorbed substrates and catalytic activity in supramolecular cages 21 – 23 and zeolites 24 , 25 have been widely studied.…”

Section: Introductionmentioning

confidence: 99%

Construction of C-C bonds via photoreductive coupling of ketones and aldehydes in the metal-organic-framework MFM-300(Cr)

Luo

Chen

et al. 2021

Nat Commun

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Construction of C-C bonds via reductive coupling of aldehydes and ketones is hindered by the highly negative reduction potential of these carbonyl substrates, particularly ketones, and this renders the formation of ketyl radicals extremely endergonic. Here, we report the efficient activation of carbonyl compounds by the formation of specific host-guest interactions in a hydroxyl-decorated porous photocatalyst. MFM-300(Cr) exhibits a band gap of 1.75 eV and shows excellent catalytic activity and stability towards the photoreductive coupling of 30 different aldehydes and ketones to the corresponding 1,2-diols at room temperature. Synchrotron X-ray diffraction and electron paramagnetic resonance spectroscopy confirm the generation of ketyl radicals via confinement within MFM-300(Cr). This protocol removes simultaneously the need for a precious metal-based photocatalyst or for amine-based sacrificial agents for the photochemical synthesis.

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Promoting Frustrated Lewis Pairs for Heterogeneous Chemoselective Hydrogenation via the Tailored Pore Environment within Metal–Organic Frameworks

Cited by 23 publications

References 37 publications

Catalysis, FLPs, and Beyond

Catalysis, FLPs, and Beyond

Highly Diastereoselective Functionalization of Piperidines by Photoredox Catalyzed C–H Arylation and Epimerization

Construction of C-C bonds via photoreductive coupling of ketones and aldehydes in the metal-organic-framework MFM-300(Cr)

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