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Maximizing hole‐transfer kinetics—usually a rate‐determining step in semiconductor‐based artificial photosynthesis—is pivotal for simultaneously enabling high‐efficiency solar hydrogen production and hole utilization. However, this remains elusive yet as efforts are largely focused on optimizing the electron‐involved half‐reactions only by empirically employing sacrificial electron donors (SEDs) to...
Maximizing hole‐transfer kinetics—usually a rate‐determining step in semiconductor‐based artificial photosynthesis—is pivotal for simultaneously enabling high‐efficiency solar hydrogen production and hole utilization. However, this remains elusive yet as efforts are largely focused on optimizing the electron‐involved half‐reactions only by empirically employing sacrificial electron donors (SEDs) to...