From the viewpoint of abundance, economy, non-toxicity, and renewability, CO 2 is the ideal
C1 synthon in organic synthetic chemistry. Utilizing CO 2 for chemical conversion to …

CO2 as a classical C1 unit is often used in the synthesis of high value-added carboxylic
acids and their derivatives in organic synthetic chemistry. There have been many reports in …

Direct electrocarboxylation of various N-acylimines with atmospheric CO2 is achieved in an
undivided cell under mild conditions, affording substituted α-amino acids in yields of 62 …

The significant rise in atmospheric carbon dioxide (CO2) levels has prompted the need to
develop efficient methods for CO2 conversion and fixation methods. Electrocarboxylation …

Electrocarboxylation of carbon dioxide (CO2) using organic substrates has emerged as a
promising method for the sustainable synthesis of value-added carboxylic acids due to its …

Direct C3-functionalization of quinoxalin-2 (1H)-ones is a convenient way to develop new
and sustainable strategies, which are important for natural product and drug modification …

1, 4-Dihydropyridines (1, 4-DHPs) hold a top-notch position in the pharmaceutical world due
to a broader spectrum of applications, whereas the carboxylic moiety has been an integral …

1, 2-Diols are an important class of compounds. Nonetheless, the preparation of
unsymmetrical 1, 2-diols via the direct cross-coupling of two different carbonyl compounds …

The electrocarboxylation of organic compounds provides a green alternative to the
conventional use of cyanides or organometallics. Via a simple electrochemical approach …

Carbon dioxide is ideal for carboxylation reactions as a renewable and sustainable C1
feedstock and has significant recognition owing to its low cost, non-toxicity, and high …