Light-activated copper(II) complexes achieve efficient anti-Markovnikov alkene hydration
The selective conversion of alkenes into alcohols is a cornerstone of modern chemical synthesis, underpinning the production of pharmaceuticals, functional materials, and fine chemicals. However, conventional acid-catalyzed hydration reactions typically follow Markovnikov's rule, yielding secondary or tertiary alcohols. Achieving the complementary anti-Markovnikov hydration, where water adds to form primary alcohols, has long remained a challenge in organic chemistry. Although photocatalytic strategies have emerged as promising alternatives, they are limited only to activated substrates, leaving a significant gap in practical and sustainable solutions.
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