Fig. 6: Unveiling the cascaded C–H activation mechanism. | Nature Communications

Fig. 6: Unveiling the cascaded C–H activation mechanism.

From: Dipole synergy enables fast directional charge transport for solar hydrogen and benzaldehyde coproduction

Fig. 6: Unveiling the cascaded C–H activation mechanism.

In situ EPR analysis of (a) e⁻, (b) h⁺, and (c) Cα radical concentrations in different catalysts. d DFT theoretical calculation model for Gibbs free energy changes of adsorbed species *C6H5CH2OH, *C6H5CHOH, and *C6H5CHO on Zn3In4S9 and 6%-MoS2/Zn3In4S9. e Deuterium labeling experiments investigating the hydrogen production mechanism and BA oxidation in 6%-MoS2/Zn3In4S9. f Dipole-field catalytic mechanism for hydrogen production and high-value chemical synthesis in 6%-MoS2/Zn3In4S9.

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