Interfacial Self-Assembly of Organized Ultrathin Films of Tripodal Metal-Terpyridyl Coordination Polymers as Luminophores and Heterogeneous Catalysts for Photocatalytic CO₂ Reduction

Abstract: Metal-directed interfacial self-assembly of well-defined coordination polymer (CP) ultrathin films can control the metal complex arrangement and distribution at the molecular level, providing a convenient route for the design and fabrication of novel opto-electrical devices and heterogeneous catalysts. Here, we report the assembly of two series of CP multilayers with the transition-metal ions of Fe2+, Co2+, Zn2+ and Tb3+ as connectors and tripodal terpyridyl ligands of 4,4′,4″-(1,3,5-triazine-2,4,6-triyl)­tris… Show more

“…The electron migration from the photosensitizer to Py3tpyZn may also be realized through other 4CzIPN-related species such as 4CzIPN* or 4CzIPN˙ − *. 20,41,54,63 As a result, the terpyridine unit and pyridinium unit in Py3tpyZn are reduced into the corresponding radical anion and radical species, respectively. This is consistent with the observation in Fig.…”

“…36–40 Particularly, the redox-active feature of terpyridine-based ligands allows corresponding CPs to promote efficient photoreduction of CO 2 . 21,41–44 As a heterogeneous form of molecular metal–terpyridine complex, metal–terpyridine CPs not only show good recyclability but also have potential tunability via ligands and metals like homogeneous molecular catalysts. However, metal–terpyridine CPs have limitations for use in photoreduction reactions.…”

Unveiling dual catalysis enhancement of a pyridinium-containing Zn(ii) coordination polymer in aerobic photooxidation of organic substrates and selective photoreduction of CO₂

“…The electron migration from the photosensitizer to Py3tpyZn may also be realized through other 4CzIPN-related species such as 4CzIPN* or 4CzIPN˙ − *. 20,41,54,63 As a result, the terpyridine unit and pyridinium unit in Py3tpyZn are reduced into the corresponding radical anion and radical species, respectively. This is consistent with the observation in Fig.…”

“…36–40 Particularly, the redox-active feature of terpyridine-based ligands allows corresponding CPs to promote efficient photoreduction of CO 2 . 21,41–44 As a heterogeneous form of molecular metal–terpyridine complex, metal–terpyridine CPs not only show good recyclability but also have potential tunability via ligands and metals like homogeneous molecular catalysts. However, metal–terpyridine CPs have limitations for use in photoreduction reactions.…”

Unveiling dual catalysis enhancement of a pyridinium-containing Zn(ii) coordination polymer in aerobic photooxidation of organic substrates and selective photoreduction of CO₂

“…[3][4][5][6][7][8][9][10][11] Among numerous homogeneous and heterogeneous catalysts, transition metal coordination polymers are emerging as superior catalysts for CO 2 photoreduction owing to versatile metal centers, tunable organic ligands, and rich structural morphologies. [12][13][14][15] Coordination polymers are commonly heterogeneous and recyclable through facile separation after catalysis, making them potentially attractive in industrial applications. Initially, precious metal coordination polymers containing Re, Ir, and Ru elements were used for CO 2 photoreduction.…”

Photoinduced morphological transformation of a self-assembled iron(ii) coordination polymer: high-performance, non-precious metal, and self-enhancing photocatalytic CO₂ reduction

“…In CO 2 photoreduction studies with a traditional Ru­(bpy) 3 Cl 2 photosensitizer (denoted as [Ru-PS]) and an organic TADF dye (4CzIPN), MN x -PMO catalysts displayed distinct CO evolution activity with CoN 5 -PMO exhibiting superior performance than the other three materials. 4CzIPN was selected as the sensitizer because it has been shown to be a cost-effective option for photoredox catalysis, and its use in CO 2 reduction photosystems was recently demonstrated for molecular iron-terpyridine and manganese-bipyridine catalysts. − ,− The coordination environment around Co in CoN 5 -PMO was confirmed by X-ray absorption spectroscopy (XAS), and the origin of the activity at the CoN 5 -active site was supported by mechanistic studies on a molecular CoN 5 analogue.…”

Manipulating the Coordination Structure of Molecular Cobalt Sites in Periodic Mesoporous Organosilica for CO₂ Photoreduction