Marı́a Mifsud scite author profile

To date, water has been poorly studied as the sacrificial electron donor for biocatalytic redox reactions using isolated enzymes. Here we demonstrate that water can also be turned into a sacrificial electron donor to promote biocatalytic redox reactions. The thermodynamic driving force required for water oxidation is obtained from UV and visible light by means of simple titanium dioxide-based photocatalysts. The electrons liberated in this process are delivered to an oxidoreductase by simple flavin redox mediators. Overall, the feasibility of photobiocatalytic, water-driven bioredox reactions is demonstrated.

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Catalysis of 3-Pyrrolidinecarboxylic Acid and Related Pyrrolidine Derivatives in Enantioselective anti-Mannich-Type Reactions: Importance of the 3-Acid Group on Pyrrolidine for Stereocontrol

Zhang

et al. 2007

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The development of enantioselective anti-selective Mannich-type reactions of aldehydes and ketones with imines catalyzed by 3-pyrrolidinecarboxylic acid and related pyrrolidine derivatives is reported in detail. Both (3R,5R)-5-methyl-3-pyrrolidinecarboxylic acid and (R)-3-pyrrolidinecarboxylic acid efficiently catalyzed the reactions of aldehydes with alpha-imino esters under mild conditions and afforded anti-Mannich products with high diastereo- and enantioselectivities (anti/syn up to 99:1, up to >99% ee). For the reactions of ketones with alpha-imino esters, (R)-3-pyrrolidinecarboxylic acid was an efficient catalyst (anti/syn up to >99:1, up to 99% ee). Evaluation of a series of pyrrolidine-based catalysts indicated that the acid group at the beta-position of the pyrrolidine ring of the catalyst played an important role in forwarding the carbon-carbon bond formation and in directing anti-selectivity and enantioselectivity.

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Self‐Assembly of a Heteropolyoxopalladate Nanocube: [Pd^II₁₃As^V₈O₃₄(OH)₆]⁸⁻

et al. 2008

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Not like the others: A molecular palladium oxide cluster was formed by self‐assembly of palladium(II) and arsenic(V) using mild reaction conditions. The resulting heteropolypalladate [PdII13AsV8O34(OH)6]8− has a distorted cubic shape and edge lengths of about 1 nm. The thirteen PdII ions retain four‐coordinate square‐planar geometry, in marked contrast to all other known discrete polyoxometalates.

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MgO nanoparticle-based multifunctional catalysts in the cascade reaction allows the green synthesis of anti-inflammatory agents

Climent

Corma

Iborra

et al. 2007

Journal of Catalysis

104

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Marı́a Mifsud

Photobiocatalytic chemistry of oxidoreductases using water as the electron donor

Catalysis of 3-Pyrrolidinecarboxylic Acid and Related Pyrrolidine Derivatives in Enantioselective anti-Mannich-Type Reactions: Importance of the 3-Acid Group on Pyrrolidine for Stereocontrol

Self‐Assembly of a Heteropolyoxopalladate Nanocube: [Pd^II₁₃As^V₈O₃₄(OH)₆]⁸⁻

MgO nanoparticle-based multifunctional catalysts in the cascade reaction allows the green synthesis of anti-inflammatory agents

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Marı́a Mifsud

Photobiocatalytic chemistry of oxidoreductases using water as the electron donor

Catalysis of 3-Pyrrolidinecarboxylic Acid and Related Pyrrolidine Derivatives in Enantioselective anti-Mannich-Type Reactions: Importance of the 3-Acid Group on Pyrrolidine for Stereocontrol

Self‐Assembly of a Heteropolyoxopalladate Nanocube: [PdII13AsV8O34(OH)6]8−

MgO nanoparticle-based multifunctional catalysts in the cascade reaction allows the green synthesis of anti-inflammatory agents

Contact Info

Product

Resources

About

Self‐Assembly of a Heteropolyoxopalladate Nanocube: [Pd^II₁₃As^V₈O₃₄(OH)₆]⁸⁻