Atomically Dispersed Iron Metal Site in a Porphyrin-Based Metal–Organic Framework for Photocatalytic Nitrogen Fixation

Abstract: The rational design of photocatalysts for efficient nitrogen (N 2 ) fixation at ambient conditions is important for revolutionizing ammonia production and quite challenging because the great difficulty lies in the adsorption and activation of the inert N 2 . Inspired by a biological molecule, chlorophyll, featuring a porphyrin structure as the photosensitizer and enzyme nitrogenase featuring an iron (Fe) atom as a favorable binding site for N 2 via π-backbonding, here we developed a porphyrin-based metal−organ… Show more

“…Notably, according to the EIS analysis (Figure S11), POP2-Fe possesses a smaller impedance radius than POP2, indicating that the coordination facilitates the photoinduced electron transportation of POP2-Fe; this is beneficial to the subsequent reduction. 61 Based on the above Results and Discussion, a possible mechanism is proposed in Figure 7b. Ru(bpy) 3…”

“…According to the electron orbitals of molecular monomers, i.e., 1-Fe and 2-Fe, the electrons are located on the porphyrin ring (Figure S14). Notably, according to the EIS analysis (Figure S11), POP2-Fe possesses a smaller impedance radius than POP2, indicating that the coordination facilitates the photoinduced electron transportation of POP2-Fe; this is beneficial to the subsequent reduction …”

Ferric Porphyrin-Based Porous Organic Polymers for CO₂ Photocatalytic Reduction to Syngas with Selectivity Control

“…Notably, according to the EIS analysis (Figure S11), POP2-Fe possesses a smaller impedance radius than POP2, indicating that the coordination facilitates the photoinduced electron transportation of POP2-Fe; this is beneficial to the subsequent reduction. 61 Based on the above Results and Discussion, a possible mechanism is proposed in Figure 7b. Ru(bpy) 3…”

“…According to the electron orbitals of molecular monomers, i.e., 1-Fe and 2-Fe, the electrons are located on the porphyrin ring (Figure S14). Notably, according to the EIS analysis (Figure S11), POP2-Fe possesses a smaller impedance radius than POP2, indicating that the coordination facilitates the photoinduced electron transportation of POP2-Fe; this is beneficial to the subsequent reduction …”

Ferric Porphyrin-Based Porous Organic Polymers for CO₂ Photocatalytic Reduction to Syngas with Selectivity Control

“…Recently, electrochemical N 2 conversion to N 2 H 4 has been achieved. 64–66 Thus, one can foresee on the horizon a path for the development of solar electrochemical plants for hydrazine production collocated along with an AB fueling plant for vehicles running on hydrogen.…”

The curious saga of dehydrogenation/hydrogenation for chemical hydrogen storage: a mechanistic perspective

“…The insertion of Fe into the porphyrin ring of a porphyrin‐based metal–organic framework (PMOF) enabled this PMOF for photocatalytically reducing N 2 to NH 3 . [ 49 ] UiO‐66 MOF exhibited extended wavelength absorption once the linker was changed from terephthalate to aminoterephthalate, leading to the enhanced photocatalytic H 2 production performance. [ 50 ] The amine group (NH 2 )‐modified NH 2 ‐MIL‐125(Ti) MOF showed visible‐light‐induced photocatalytic CO 2 reduction.…”

Recent Advances on Porous Materials for Synergetic Adsorption and Photocatalysis