Nafion Layer-Enhanced Anatase TiO<sub>2</sub> Nanoparticles for Photosynthetic CO<sub>2</sub> Conversion: Fid-Bau Portal

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Nafion Layer-Enhanced Anatase TiO₂ Nanoparticles for Photosynthetic CO₂ Conversion

Mokri, Nurul Afiqah / Ching, Oh Pei / Leng, Chew Thiam / Nasir, Rizwan

In pursuing efficient photosynthetic CO₂ conversion, using TiO₂ as a photocatalyst has encountered challenges, including high bandgap energy levels and recombination rates of photogenerated charges. Addressing these issues, a key strategy involves modifying the anatase TiO₂ surfaces with a thin coating layer, wherein the introduction of oxygen vacancies at non-lattice regions proves instrumental in retaining long-lived electrons essential for CO₂ photoreduction. Notably, this study introduces a novel approach by incorporating perfluorinated Nafion with a significant distribution of sulfonyl groups at TiO₂/Nafion interfaces on anatase TiO₂ nanoparticles (S-TiO₂) synthesized via sonothermal assisted sol-gel route. Furthermore, the Nf/S-TiO₂ nanoparticles exhibit lowest electron-hole recombination, showcasing improved in photogenerated carrier transport from valence to conduction band. This research pioneers the exploration of the effect of Nafion coating on light absorption wavelength and photogenerated charge carrier activities using luminescence spectroscopy. The proposed ranking of photocatalytic activity—Nf/C-TiO₂ < C-TiO₂ < S-TiO₂ < Nf/S-TiO₂—underscores the potential of the Nafion layer in augmenting the suppression of undesired recombination of holes and electrons. Improved light utilisation in term of photonic efficiency and selectivity of CO₂ reduction is of demand interest for future work.

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Nafion Layer-Enhanced Anatase TiO₂ Nanoparticles for Photosynthetic CO₂ Conversion

Mokri, Nurul Afiqah / Ching, Oh Pei / Leng, Chew Thiam / Nasir, Rizwan

In pursuing efficient photosynthetic CO₂ conversion, using TiO₂ as a photocatalyst has encountered challenges, including high bandgap energy levels and recombination rates of photogenerated charges. Addressing these issues, a key strategy involves modifying the anatase TiO₂ surfaces with a thin coating layer, wherein the introduction of oxygen vacancies at non-lattice regions proves instrumental in retaining long-lived electrons essential for CO₂ photoreduction. Notably, this study introduces a novel approach by incorporating perfluorinated Nafion with a significant distribution of sulfonyl groups at TiO₂/Nafion interfaces on anatase TiO₂ nanoparticles (S-TiO₂) synthesized via sonothermal assisted sol-gel route. Furthermore, the Nf/S-TiO₂ nanoparticles exhibit lowest electron-hole recombination, showcasing improved in photogenerated carrier transport from valence to conduction band. This research pioneers the exploration of the effect of Nafion coating on light absorption wavelength and photogenerated charge carrier activities using luminescence spectroscopy. The proposed ranking of photocatalytic activity—Nf/C-TiO₂ < C-TiO₂ < S-TiO₂ < Nf/S-TiO₂—underscores the potential of the Nafion layer in augmenting the suppression of undesired recombination of holes and electrons. Improved light utilisation in term of photonic efficiency and selectivity of CO₂ reduction is of demand interest for future work.

Nafion Layer-Enhanced Anatase TiO₂ Nanoparticles for Photosynthetic CO₂ Conversion

Mokri, Nurul Afiqah / Ching, Oh Pei / Leng, Chew Thiam / Nasir, Rizwan

In pursuing efficient photosynthetic CO₂ conversion, using TiO₂ as a photocatalyst has encountered challenges, including high bandgap energy levels and recombination rates of photogenerated charges. Addressing these issues, a key strategy involves modifying the anatase TiO₂ surfaces with a thin coating layer, wherein the introduction of oxygen vacancies at non-lattice regions proves instrumental in retaining long-lived electrons essential for CO₂ photoreduction. Notably, this study introduces a novel approach by incorporating perfluorinated Nafion with a significant distribution of sulfonyl groups at TiO₂/Nafion interfaces on anatase TiO₂ nanoparticles (S-TiO₂) synthesized via sonothermal assisted sol-gel route. Furthermore, the Nf/S-TiO₂ nanoparticles exhibit lowest electron-hole recombination, showcasing improved in photogenerated carrier transport from valence to conduction band. This research pioneers the exploration of the effect of Nafion coating on light absorption wavelength and photogenerated charge carrier activities using luminescence spectroscopy. The proposed ranking of photocatalytic activity—Nf/C-TiO₂ < C-TiO₂ < S-TiO₂ < Nf/S-TiO₂—underscores the potential of the Nafion layer in augmenting the suppression of undesired recombination of holes and electrons. Improved light utilisation in term of photonic efficiency and selectivity of CO₂ reduction is of demand interest for future work.

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Title:

Nafion Layer-Enhanced Anatase TiO₂ Nanoparticles for Photosynthetic CO₂ Conversion

Additional title:

Lecture Notes in Civil Engineering

Contributors:

Mansour, Yasser (editor) / Subramaniam, Umashankar (editor) / Mustaffa, Zahiraniza (editor) / Abdelhadi, Abdelhakim (editor) / Ezzat, Mohamed (editor) / Abowardah, Eman (editor) / Mokri, Nurul Afiqah (author) / Ching, Oh Pei (author) / Leng, Chew Thiam (author) / Nasir, Rizwan (author)

Conference:

Proceedings of the International Conference on Sustainability: Developments and Innovations ; 2024 ; Riyadh, Saudi Arabia

Published in:

Proceedings of the ICSDI 2024 Volume 1 ; Chapter: 32 ; 254-261

Lecture Notes in Civil Engineering ; 556

Publication date:

2024-11-17

Size:

8 pages

ISBN:

978-981-97-8712-8 , 978-981-97-8711-1

ISSN:

2366-2565 , 2366-2557

DOI:

https://doi.org/10.1007/978-981-97-8712-8_32

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

CO<sub>2</sub> reduction , coating layer , optical property , oxygen vacancies , photocatalysis , photogenerated charges , photoluminescence , titanium dioxide Engineering , Building Construction and Design , Geoengineering, Foundations, Hydraulics , Sustainable Architecture/Green Buildings , Engineering Economics, Organization, Logistics, Marketing , Energy Policy, Economics and Management , Renewable and Green Energy

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