Journal
ADVANCED SCIENCE
Volume 9, Issue 21, Pages -Publisher
WILEY
DOI: 10.1002/advs.202201677
Keywords
Coulomb interaction; crystalline carbon nitride; electron concentrations; near-infrared response; n-type doping
Categories
Funding
- Natural Science Foundation of China [51874199, 22078200, 22102103]
- SZIIT [SZIIT2022KJ026]
- Guangdong Basic and Applied Basic Research Foundation [2019A1515111021, 2021A1515010162]
- Shenzhen Innovation Program [JCYJ20170818142642395]
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In this study, an n-type doping strategy using alkaline earth metal ions in polymeric carbon nitride (KCN) was proposed to enhance the visible and near-infrared photoactivity. The n-type doping increased electron densities and activated electron transitions, resulting in NIR light absorption. Furthermore, the strategy improved carrier mobility and conductivity, facilitating charge transfer and separation.
Most near-infrared (NIR) light-responsive photocatalysts inevitably suffer from low charge separation due to the elevated Coulomb interaction between electrons and holes. Here, an n-type doping strategy of alkaline earth metal ions is proposed in crystalline K+ implanted polymeric carbon nitride (KCN) for visible and NIR photoactivity. The n-type doping significantly increases the electron densities and activates the n ->pi* electron transitions, producing NIR light absorption. In addition, the more localized valence band (VB) and the regulation of carrier effective mass and band decomposed charge density, as well as the improved conductivity by 1-2 orders of magnitude facilitate the charge transfer and separation. The proposed n-type doping strategy improves the carrier mobility and conductivity, activates the n ->pi* electron transitions for NIR light absorption, and breaks the limitation of poor charge separation caused by the elevated Coulomb interaction.
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