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As a type of elementary organic compounds containing N−N single bond, hydrazone involved chemical conversions are extremely extensive, but they are mainly limited to N2‐retention and N2‐removal modes. We report herein an unprecedented protocol for the realization of division utilization of the N2‐moiety of hydrazone by a radical facilitated N−N bond deconstruction strategy. This new conversion mode...
As a type of elementary organic compounds containing N−N single bond, hydrazone involved chemical conversions are extremely extensive, but they are mainly limited to N2‐retention and N2‐removal modes. We report herein an unprecedented protocol for the realization of division utilization of the N2‐moiety of hydrazone by a radical facilitated N−N bond deconstruction strategy. This new conversion mode...