The Atom Economy—A Search for Synthetic Efficiency

Trost, Barry M.

doi:10.1126/science.1962206

Cited by 4,545 publications

(2,378 citation statements)

References 75 publications

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“…Catalytic reactions that effect selective carbon-carbon bond formation facilitate this aim with economy of operations 1 and materials. 2 Methodology for the selective coupling of α-olefins and isocyanates to provide acrylamides has potential applications in the field of polymer science. Poly(N-alkylacrylamide)s and poly(N-alkylmethacrylamide)s have been extensively studied for their properties as temperature-sensitive aqueous microgels.…”

Section: Introductionmentioning

confidence: 99%

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Nickel-Catalyzed Synthesis of Acrylamides from α-Olefins and Isocyanates

Schleicher

Jamison

2007

Org. Lett.

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The nickel(0)-catalyzed coupling of α-olefins and isocyanates proceeds in the presence of the Nheterocyclic carbene ligand IPr to provide α,β-unsaturated amides. Carbon-carbon bond formation occurs preferentially at the 2-position of the olefin. The N-tert-butyl amide products can be converted to the corresponding primary amides under acidic conditions. A major goal of organic chemistry is the elaboration of molecular complexity from simple, inexpensive precursors. Catalytic reactions that effect selective carbon-carbon bond formation facilitate this aim with economy of operations 1 and materials. 2 Methodology for the selective coupling of α-olefins and isocyanates to provide acrylamides has potential applications in the field of polymer science. Poly(N-alkylacrylamide)s and poly(N-alkylmethacrylamide)s have been extensively studied for their properties as temperature-sensitive aqueous microgels. 3 The monomers are commonly prepared by reaction of (meth)acryloyl chloride with the corresponding amine. By comparison, direct synthesis of these unsaturated amides from alkenes and isocyanates would afford monomers with a greater variety of substitution patterns of the polymer backbone and avoid the formation of byproducts such as chloride salts. 4 Several nickel(0)-mediated reactions of isocyanates have been described in the literature. Much of the seminal investigation in this area was done by Hoberg, who first reported the stoichiometric 5a and catalytic 5c coupling reactions of phenyl isocyanate and ethylene on nickel(0) with trialkyl phosphine ligands to give N-phenyl acrylamide. Hoberg proposed that the reaction proceeds via an azanickelacyclopentanone intermediate, which then undergoes β-hydrogen elimination (Scheme 1).Other α-olefins react with phenyl isocyanate with nickel(0) and phosphine ligands; 5b,d-h the major product is the trans-disubstituted α,β-unsaturated amide. Formation of a 1,1-disubstituted acrylamide is observed only in two cases as a minor product, in 3% and 13%

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Section: Introductionmentioning

confidence: 99%

“…Control experiments run in the absence of either Ni(cod) 2 or IPr indicate that both species are necessary for catalysis.…”

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confidence: 96%

Nickel-Catalyzed Synthesis of Acrylamides from α-Olefins and Isocyanates

Schleicher

Jamison

2007

Org. Lett.

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“…An atom‐efficient26 convergent enzymatic route to ( S )‐ibuprofen based on HLADH‐mediated PIDAT of 1 g is currently being developed and will be reported elsewhere. Altogether, no clear pattern in line with the electronic effects of the substitution could be identified, despite anticipation that electron‐withdrawing groups would be beneficial by enhancing racemization and, possibly, hydration8 rates.…”

Section: Resultsmentioning

confidence: 99%

Biocatalytic Parallel Interconnected Dynamic Asymmetric Disproportionation of α‐Substituted Aldehydes: Atom‐Efficient Access to Enantiopure (S)‐Profens and Profenols

2018

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The biocatalytic asymmetric disproportionation of aldehydes catalyzed by horse liver alcohol dehydrogenase (HLADH) was assessed in detail on a series of racemic 2‐arylpropanals. Statistical optimization by means of design of experiments (DoE) allowed the identification of critical interdependencies between several reaction parameters and revealed a specific experimental window for reaching an ′optimal compromise′ in the reaction outcome. The biocatalytic system could be applied to a variety of 2‐arylpropanals and granted access in a redox‐neutral manner to enantioenriched (S)‐profens and profenols following a parallel interconnected dynamic asymmetric transformation (PIDAT). The reaction can be performed in aqueous buffer at ambient conditions, does not rely on a sacrificial co‐substrate, and requires only catalytic amounts of cofactor and a single enzyme. The high atom‐efficiency was exemplified by the conversion of 75 mM of rac‐2‐phenylpropanal with 0.03 mol% of HLADH in the presence of ∼0.013 eq. of oxidized nicotinamide adenine dinucleotide (NAD+), yielding 28.1 mM of (S)‐2‐phenylpropanol in 96% ee and 26.5 mM of (S)‐2‐phenylpropionic acid in 89% ee, in 73% overall conversion. Isolated yield of 62% was obtained on 100 mg‐scale, with intact enantiopurities.

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“…rough estimate on the productivity in S. erythraea is possible. About 0.18-0.53% of the glucose fed ends up in erythromycin (2). 12 While this yield may not seem very impressive it is still signi-cantly larger than the yield in the only total synthesis (less than 0.02%).…”

Section: Step-and Redox-economies In Naturementioning

confidence: 98%

“…Starting from propionyl-CoA 14 transformations (additional four steps have to be added, if one starts counting from acetyl-CoA, additional six steps if transacylation steps from AT to ACP on the PKS are included, and additional seven steps if the activation and loading of the starter and elongation units are included) occur in a linear fashion to yield 6-deoxyerythronolide B (1b). Aer this, ve additional biosynthetic tailoring steps fashion erythromycin A (2). 8 So far, the rst and only total synthesis of 2 was reported by Woodward and coworkers in 1981.…”

Section: Step-and Redox-economies In Naturementioning

confidence: 98%

Lessons from the Synthetic Chemist Nature

2015

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This conceptual review examines the ideal multistep synthesis from the perspective of nature. We suggest that besides step-and redox economies, one other key to efficiency is steady state processing with intermediates that are immediately transformed to the next intermediate when formed. We discuss four of nature's strategies (multicatalysis, domino reactions, iteration and compartmentation) that commonly proceed via short-lived intermediates and show that these strategies are also part of the chemist's portfolio. We particularly focus on compartmentation which in nature is found microscopically within cells (organelles) and between cells and on a molecular level on multiprotein scaffolds (e.g. in polyketide synthases) and demonstrate how compartmentation is manifested in modern multistep flow synthesis.

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The Atom Economy—A Search for Synthetic Efficiency

Cited by 4,545 publications

References 75 publications

Nickel-Catalyzed Synthesis of Acrylamides from α-Olefins and Isocyanates

Nickel-Catalyzed Synthesis of Acrylamides from α-Olefins and Isocyanates

Biocatalytic Parallel Interconnected Dynamic Asymmetric Disproportionation of α‐Substituted Aldehydes: Atom‐Efficient Access to Enantiopure (S)‐Profens and Profenols

Lessons from the Synthetic Chemist Nature

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