Joyeeta Lodh scite author profile

Although the core of electrochemistry involves simple oxidation and reduction reactions, it can be complicated in real electrochemical organic reactions. The principles used in electrochemical reactions have been derived using physical organic chemistry, which drives other organic/inorganic reactions. This review mainly comprises two themes: the first discusses the factors that help optimize an electrochemical reaction, including electrodes, supporting electrolytes, and electrochemical cell design, and the second outlines studies conducted in the field over a period of 10 years. Electrochemical reactions can be used as a versatile tool for synthetically important reactions by modifying the constant electrolysis current.

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Bio-inspired CO2 reduction reaction catalysis using soft-oxometalates

Lodh

Roy²

2022

Journal of Inorganic Biochemistry

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Catalysis by Oxometalates and Their Microheterogeneous Media

Lodh

Roy

2020

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Applications of oxometalates in catalysis have been a long and ongoing endeavour. In this chapter, in addition to archiving the chemistry of oxometalates in catalysing oxidative, reductive and photoredox reactions along with acid and base catalysed reactions, we will highlight examples of reactions that can harvest energy. We will go further and introduce the micro-heterogeneous media or the state of soft-oxometalates in diverse catalysis. The overview concludes with a perspective on the future directions of catalysis research with oxometalates.

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Joyeeta Lodh

Light-driven carbon dioxide reduction coupled with conversion of acetylenic group to ketone by a functional Janus catalyst based on keplerate {Mo₁₃₂}

Electrochemical organic reactions: A tutorial review

Bio-inspired CO2 reduction reaction catalysis using soft-oxometalates

Catalysis by Oxometalates and Their Microheterogeneous Media

Contact Info

Product

Resources

About

Joyeeta Lodh

Light-driven carbon dioxide reduction coupled with conversion of acetylenic group to ketone by a functional Janus catalyst based on keplerate {Mo132}

Electrochemical organic reactions: A tutorial review

Bio-inspired CO2 reduction reaction catalysis using soft-oxometalates

Catalysis by Oxometalates and Their Microheterogeneous Media

Contact Info

Product

Resources

About

Light-driven carbon dioxide reduction coupled with conversion of acetylenic group to ketone by a functional Janus catalyst based on keplerate {Mo₁₃₂}