Advances in the One-Step Approach of Polymeric Materials Using Enzymatic Techniques

Herman, Richard Ansah; Zhu, Xuan; Ayepa, Ellen; You, Shuai; Wang, Jun

doi:10.3390/polym15030703

Cited by 2 publications

(1 citation statement)

References 187 publications

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“…Combining metal ions or NPs with biocatalysts in a single system is a promising strategy for implementation in the one-pot chemoenzymatic cascade reactions [153], especially for asymmetric syntheses. For example, Li et al [154] developed a one-pot chemoenzymatic cascade reaction to asymmetric synthesize (R)-1-(4-biphenyl) ethanol (Figure 61) while using a highly active and selective enzyme-metal-single-atom catalyst.…”

Section: Chemoenzymatic Processesmentioning

confidence: 99%

Recent Progress in Pd-Catalyzed Tandem Processes

Nikoshvili

Matveeva

2023

Catalysts

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In recent years, Pd-containing catalytic systems for tandem processes have gained special attention due to their enhanced catalytic properties and their possibility of performing several reactions without the necessity of separating the intermediates. In this review, recent progress in Pd-catalyzed tandem processes is considered. Three types of catalytic systems are described: homogeneous catalysts (including immobilized Pd complexes); heterogeneous catalysts supported on oxides, MOFs, COFs, etc., with particular attention to the supports containing acid/base sites; and metal-enzyme catalysts for chemoenzymatic tandem processes applied in fine organic synthesis and biotechnology. For homogeneous Pd-catalyzed reactions, different tandem reactions were considered, i.e., cross-coupling, cyclization, carbonylation, isomerization, alkylation, arylation, etc.

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Section: Chemoenzymatic Processesmentioning

confidence: 99%

Recent Progress in Pd-Catalyzed Tandem Processes

Nikoshvili

Matveeva

2023

Catalysts

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show abstract

Recent Progress in Pd-Catalyzed Tandem Processes

Nikoshvili¹,

Matveeva²

2023

Preprint

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In recent years Pd-containing catalytic systems for tandem processes has drawn special attention due to the enhanced catalytic properties and possibility to perform several reactions without the necessity to separate the intermediates. In this review, recent progress in Pd-catalyzed tandem processes is considered. Three types of catalytic systems were described: homogeneous catalysts (including immobilized Pd complexes); heterogeneous catalysts supported on oxides, MOFs, COFs, etc. with particular attention to the supports containing acid/base sites; metal-enzyme catalysts for chemoenzymatic tandem processes applied in fine organic synthesis and biotechnology. For homogeneous Pd-catalyzed reactions different tandem reactions were considered, i.e. cross-coupling, cyclization, carbonylation, isomerization, alkylation, arylation, etc.

show abstract

Advances in the One-Step Approach of Polymeric Materials Using Enzymatic Techniques

Cited by 2 publications

References 187 publications

Recent Progress in Pd-Catalyzed Tandem Processes

Recent Progress in Pd-Catalyzed Tandem Processes

Recent Progress in Pd-Catalyzed Tandem Processes

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