Antenna Effect in Noble Metal‐Free Dye‐Sensitized Photocatalytic Systems Enhances CO<sub>2</sub>‐to‐CO Conversion

Nikolaou, Vasilis; Govind, Chinju; Balanikas, Evangelos; Bharti, Jaya; Diring, Stéphane; Vauthey, Eric; Robert, Marc; Odobel, Fabrice

doi:10.1002/ange.202318299

Angewandte Chemie

2024

DOI: 10.1002/ange.202318299

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Antenna Effect in Noble Metal‐Free Dye‐Sensitized Photocatalytic Systems Enhances CO₂‐to‐CO Conversion

Vasilis Nikolaou,

Chinju Govind,

Evangelos Balanikas

et al.

Abstract: Dye‐sensitized photocatalytic systems (DSPs) have been extensively investigated for solar‐driven hydrogen (H2) evolution. However, their application in carbon dioxide (CO2) reduction remains limited. Furthermore, current solar‐driven CO2‐to‐CO DSPs typically employ rhenium complexes as catalysts. In this study, we have developed DSPs that incorporate noble metal‐free components, specifically a zinc‐porphyrin as photosensitizer (PS) and a cobalt‐quaterpyridine as catalyst (CAT). Taking a significant stride forw… Show more

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Stabilizing Excited-State of Organic Phosphorescent Photosensitizers via Self-Assembly for Boosting Photoreduction of CO2-to-CO

Cai,

Xiong,

Wang

et al. 2024

Preprint

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The development of pure organic photosensitizers remains challenging due to low intersystem crossing (ISC) efficiency and the instability of triplet excitons. Herein, a series of organic phosphorescent molecules are prepared as the photosensitizers. The extensive conjugation of fused-ring cores enhances visible-light absorption, while heteroatom-rich structures promote ISC process, effectively generating triplet excitons. 2,3,5,6,9,10-Hexabutoxy-8-phenyldithieno-triphenyleno-pyridine (TPy) exhibits high ISC efficiency and can sensitize Fe-catalyst efficiently for photoreduction CO2-to-CO. A novel strategy of doping phosphorescent molecules into the core of amphiphilic nanoparticles (NPs) formed by polystyrene-block-poly(ethylene glycol) (PS-b-PEG) was further developed. PS, the core of the NPs, can stabilize the triplet excitons generated by TPy due to its rigid polymer backbone, resulting in enhanced photocatalytic efficiency. Meanwhile, PEG serves as the corona of the NPs, improving stability and dispersibility. Notably, this self-assembled strategy increases the sensitization efficiency of TPy (TONCAT = 2041, 51.02 µmol CO) by nearly 50%, and even after three catalytic cycles, 93.5% of the original sensitization ability is retained. This result opens a new avenue for developing novel molecular organic photosensitizers and stabilizing their excited-states for efficient application in photoredox reactions.

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Stabilizing Excited-State of Organic Phosphorescent Photosensitizers via Self-Assembly for Boosting Photoreduction of CO2-to-CO

Cai,

Xiong,

Wang

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Antenna Effect in Noble Metal‐Free Dye‐Sensitized Photocatalytic Systems Enhances CO₂‐to‐CO Conversion

Cited by 1 publication

References 77 publications

Stabilizing Excited-State of Organic Phosphorescent Photosensitizers via Self-Assembly for Boosting Photoreduction of CO2-to-CO

Stabilizing Excited-State of Organic Phosphorescent Photosensitizers via Self-Assembly for Boosting Photoreduction of CO2-to-CO

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Antenna Effect in Noble Metal‐Free Dye‐Sensitized Photocatalytic Systems Enhances CO2‐to‐CO Conversion

Cited by 1 publication

References 77 publications

Stabilizing Excited-State of Organic Phosphorescent Photosensitizers via Self-Assembly for Boosting Photoreduction of CO2-to-CO

Stabilizing Excited-State of Organic Phosphorescent Photosensitizers via Self-Assembly for Boosting Photoreduction of CO2-to-CO

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Antenna Effect in Noble Metal‐Free Dye‐Sensitized Photocatalytic Systems Enhances CO₂‐to‐CO Conversion