Lewis Acid‐Catalyzed Ring‐Opening Functionalizations of 1,4‐Epoxy‐1,4‐dihydronaphthalenes

Sawama, Yoshinari; Ogata, Yuta; Kawamoto, Koichi; Satake, Hiroko; Shibata, Kyoshiro; Monguchi, Yasunari; Sajiki, Hironao; Kita, Yasuyuki

doi:10.1002/adsc.201200771

Cited by 22 publications

(10 citation statements)

References 77 publications

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“…1,4-Dihydro-1,4-epoxynaphthalenes can be transformed into naphthols (Scheme , Method G) using diverse catalytic systems with good to excellent yields (Table ). It is important to note that this transformation can result in α- and β-naphthols; therefore, aromatization can be accompanied by structural rearrangement (Table , entries 1, 5, 6). …”

Section: Transformation Of 14-dihydro-14-epoxynaphthalenes To Naphtho...mentioning

confidence: 99%

Biobased C₆-Furans in Organic Synthesis and Industry: Cycloaddition Chemistry as a Key Approach to Aromatic Building Blocks

Kucherov

Romashov

Averochkin

et al. 2021

ACS Sustainable Chem. Eng.

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Rapid development in the area of cellulose biomass conversion to furanic platform chemicals has led to expectations of their valuable practical use. Impressive research progress in this direction has resulted in several achievements but at the same time identified a key challengethe necessity to produce aromatic compounds. In this perspective, we analyze the current stage of development of the furanics-tobenzene conversion process (F2B process) in connection with a bioderived route to aromatic compounds. Cycloaddition reactions between bioderived C 6 -furans as diene components and alkene/alkyne units are discussed in detail, followed by considering the subsequent aromatization reaction. Progress in the development of the F2B process and future challenges are outlined in this perspective. The key role of the F2B process in the overall biomass to aromatics transformation is discussed in view of the implementation of carbon neutral sustainable technologies in practice.

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Section: Transformation Of 14-dihydro-14-epoxynaphthalenes To Naphtho...mentioning

confidence: 99%

Biobased C₆-Furans in Organic Synthesis and Industry: Cycloaddition Chemistry as a Key Approach to Aromatic Building Blocks

Kucherov

Romashov

Averochkin

et al. 2021

ACS Sustainable Chem. Eng.

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“…This results in an increase in the positive charge on the THFA in the reactant state (+0.43) to (+0.65) in the transition state. This heterolytic charge distribution is very similar to that reported Lewis acid catalyzed ring opening of epoxides [145].…”

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confidence: 88%

Theoretical Insights into the Catalytic Hydrogenolysis of Biomass Derived Cyclic Ethers and Polyols over Metal and Alloy Promoted Particles in Aqueous Systems

Tan¹

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The increasing demand for scarce petroleum resources have generated tremendous interest in the development of sustainable strategies that can convert biomass as well as other renewable feed sources into fuels and chemicals. Plant-based sugars and other biomass sources can be deconstructed into polyols and cyclic ethers that contain excess oxygen which must be removed in order to synthesize useful chemical intermediates. This requires rejection of oxygen as either CO 2 , CO or water and the efficient use of hydrogen. In this work, we have used first-principles quantum chemical calculations along with detailed kinetic analyses to examine the fundamental mechanisms that control the selective hydrogenolysis of biomass-derived cyclic ethers and polyols in aqueous media. Recent experimental efforts have shown that metal alloys comprised of reducible and oxophilic metals such as Re-promoted Rh, Pt, Ir or Pd catalysts selectively activate biomassderived cyclic ethers and polyols such as tetrahydrofurfural alcohol (THFA) at the more substituted carbon to form α,ω-diols with high selectivity and activity. The reaction pathways observed over the non-promoted Rh, Pt, Ir and Pd catalysts are markedly different as they demonstrate high catalytic selectivities to activate the CO bonds of the least-substituted carbon centers which tend to form α,β-diols. First principle density functional theory (DFT) calculations clearly show that the non-promoted Rh catalyst preferentially activates cyclic ethers and polyols such as THFA and 1,2-propanediol, respectively at the less-substituted carbon center in order to reduce steric repulsion that occurs in activating at the more-substituted carbon center. The direct activation via the metal as was found for Rh cannot be used to explain the very different catalytic behavior of the Re-promoted Rh system. Our theoretical results together with detailed kinetic experiments strongly suggest that the presence of the very oxophilic Re sites on the surface of

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“…[54][55][56][57] The localisation of the HOMO on PDCA was calculated with SPARTAN (Hartree-Fock, 6-31G* in toluene). It is commonly known that the first step in a ring opening mechanism with a Lewis acid catalyst is the coordination of the oxophilic metal ion to the carbonyl oxygen atom.…”

Section: Synthesis and Characterisation Of The [Ti 6 (μ 3 -O) 6 (Oiprmentioning

confidence: 99%

Structural Investigation of Pyridinecarboxylato Titanium(IV) Complexes: An Uncommon Monomeric Octacoordinated Complex vs. a Hexaprismatic Architecture

et al. 2013

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We report the synthesis and structural characterisation of two titanium(IV) complexes. A new titanium(IV) complex bearing four picolinato ligands, denoted as Ti(pic) 4 , has been prepared under solvothermal conditions. This complex identified by single-crystal diffraction is a new example of an octacoordinated environment for titanium(IV) and is close to an ideal triangular dodecahedron. A second synthesis of a [a]

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Lewis Acid‐Catalyzed Ring‐Opening Functionalizations of 1,4‐Epoxy‐1,4‐dihydronaphthalenes

Cited by 22 publications

References 77 publications

Biobased C₆-Furans in Organic Synthesis and Industry: Cycloaddition Chemistry as a Key Approach to Aromatic Building Blocks

Biobased C₆-Furans in Organic Synthesis and Industry: Cycloaddition Chemistry as a Key Approach to Aromatic Building Blocks

Theoretical Insights into the Catalytic Hydrogenolysis of Biomass Derived Cyclic Ethers and Polyols over Metal and Alloy Promoted Particles in Aqueous Systems

Structural Investigation of Pyridinecarboxylato Titanium(IV) Complexes: An Uncommon Monomeric Octacoordinated Complex vs. a Hexaprismatic Architecture

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Lewis Acid‐Catalyzed Ring‐Opening Functionalizations of 1,4‐Epoxy‐1,4‐dihydronaphthalenes

Cited by 22 publications

References 77 publications

Biobased C6-Furans in Organic Synthesis and Industry: Cycloaddition Chemistry as a Key Approach to Aromatic Building Blocks

Biobased C6-Furans in Organic Synthesis and Industry: Cycloaddition Chemistry as a Key Approach to Aromatic Building Blocks

Theoretical Insights into the Catalytic Hydrogenolysis of Biomass Derived Cyclic Ethers and Polyols over Metal and Alloy Promoted Particles in Aqueous Systems

Structural Investigation of Pyridinecarboxylato Titanium(IV) Complexes: An Uncommon Monomeric Octacoordinated Complex vs. a Hexaprismatic Architecture

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Product

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Biobased C₆-Furans in Organic Synthesis and Industry: Cycloaddition Chemistry as a Key Approach to Aromatic Building Blocks

Biobased C₆-Furans in Organic Synthesis and Industry: Cycloaddition Chemistry as a Key Approach to Aromatic Building Blocks