Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production
Polymeric carbon nitride (PCN) is a metal-free semiconductor that has received extensive research attention due to its unique advantages such as low cost, high stability, and visible-light response. However, pristine PCN is not an ideal photocatalyst because of fast electron–hole recombination and i...
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sg-ntu-dr.10356-1476892023-07-14T16:00:40Z Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production Zhen, Wenlong Xue, Can School of Materials Science and Engineering Engineering::Materials Artificial Photosynthesis Carbon Dioxide Reduction Polymeric carbon nitride (PCN) is a metal-free semiconductor that has received extensive research attention due to its unique advantages such as low cost, high stability, and visible-light response. However, pristine PCN is not an ideal photocatalyst because of fast electron–hole recombination and its inert surface for molecular adsorption. Nevertheless, benefiting from the N-linked tri-s-triazine structure, PCN can be readily functionalized through chemical modifications. As such, researchers have made enormous efforts to develop various strategies for modifying PCN to achieve enhanced photocatalytic activities. Herein, recent advances in PCN functionalizations with different atomic or molecular units, including metal and nonmetal elements, small functional groups, organic functional fragments, and metal complex motifs, are summarized. Moreover, the effect of different PCN functionalization strategies on the molecular structure, optical properties, electronic behaviors, and photocatalytic activities particularly for water splitting and CO reduction is discussed. In the end, the remaining challenges in the structural modification of PCN and future opportunities of functional PCN-based photocatalysts for efficient solar fuel production are elaborated on. Ministry of Education (MOE) Accepted version The authors thank the support from the Ministry of Education, Singapore, under AcRF-Tier2 (MOE2018-T2-1-017) and AcRF-Tier1 (MOE2019-T1-002-012, RG 102/19). 2021-04-14T00:56:40Z 2021-04-14T00:56:40Z 2021 Journal Article Zhen, W. & Xue, C. (2021). Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production. Solar RRL, 5(2), 2000440-. https://dx.doi.org/10.1002/solr.202000440 2367-198X 0000-0001-8399-3973 https://hdl.handle.net/10356/147689 10.1002/solr.202000440 2-s2.0-85091514982 2 5 2000440 en Solar RRL This is the peer reviewed version of the following article: Zhen, W. & Xue, C. (2021). Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production. Solar RRL, 5(2), 2000440-. https://dx.doi.org/10.1002/solr.202000440 , which has been published in final form at https://doi.org/10.1002/solr.202000440. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |
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Engineering::Materials Artificial Photosynthesis Carbon Dioxide Reduction Zhen, Wenlong Xue, Can Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production |
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Polymeric carbon nitride (PCN) is a metal-free semiconductor that has received extensive research attention due to its unique advantages such as low cost, high stability, and visible-light response. However, pristine PCN is not an ideal photocatalyst because of fast electron–hole recombination and its inert surface for molecular adsorption. Nevertheless, benefiting from the N-linked tri-s-triazine structure, PCN can be readily functionalized through chemical modifications. As such, researchers have made enormous efforts to develop various strategies for modifying PCN to achieve enhanced photocatalytic activities. Herein, recent advances in PCN functionalizations with different atomic or molecular units, including metal and nonmetal elements, small functional groups, organic functional fragments, and metal complex motifs, are summarized. Moreover, the effect of different PCN functionalization strategies on the molecular structure, optical properties, electronic behaviors, and photocatalytic activities particularly for water splitting and CO reduction is discussed. In the end, the remaining challenges in the structural modification of PCN and future opportunities of functional PCN-based photocatalysts for efficient solar fuel production are elaborated on. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Zhen, Wenlong Xue, Can |
| format |
Article |
| author |
Zhen, Wenlong Xue, Can |
| author_sort |
Zhen, Wenlong |
| title |
Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production |
| title_short |
Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production |
| title_full |
Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production |
| title_fullStr |
Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production |
| title_full_unstemmed |
Atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production |
| title_sort |
atomic- and molecular-level functionalizations of polymeric carbon nitride for solar fuel production |
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2021 |
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https://hdl.handle.net/10356/147689 |
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1773551379058524160 |