AI Article Synopsis
- Developing stable zeolitic imidazolate frameworks (ZIFs) for photocatalytic hydrogen production is a crucial yet challenging goal in materials science.
- A new heterojunction catalyst, MnCdS@ZIF-8 and its derivatives, was created using a simple method that included ligand and cation exchange.
- This new catalyst achieved impressive hydrogen production rates of 5.450 mmol·g·h and demonstrated over 97% stability after 9 hours, with insights showing that Mn enhances electron transfer efficiency, improving overall performance.
Article Abstract
Developing highly water-stable zeolitic imidazolate frameworks (ZIFs) for visible-light-driven photocatalytic hydrolysis is important and challenging. Herein, the Type II heterojunction catalyst MnCdS@ZIF-8 and its derivatives (including MCS@ZIF-8-Mn, MCS@ZIF-8-Br, and MCS@ZIF-8-MB) were successfully constructed using a facile strategy. Through dual postsynthetic ligand and cation exchange (PSE) treatments of Mn(Ac)·4HO and 4-bromo-1-imidazole for ZIF-8, the hydrogen production efficiency of the MCS@ZIF-8-MB heterojunction catalyst can reach 5.450 mmol·g·h and remain at 97.11% after 9 h of the stability test. Construction of heterojunctions can effectively improve the hydrogen production performance of MnCdS while maintaining excellent water stability. X-ray photoelectron spectroscopy results show that upon successful construction of the MCS@ZIF-8-MB heterojunction an interface forms between the surface of MCS and ZIF-8-MB, effectively weakening the photocorrosion of MCS. Density functional theory calculations also indicate that the induction of Mn can increase the electronic states of p and d orbitals near the Fermi level of ZIF-8, suggesting that Mn(II) attracts more electrons than Zn(II). This provides more powerful theoretical evidence for the electron cloud shift from the electron donor S to Mn.
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| http://dx.doi.org/10.1021/acsami.3c08614 | DOI Listing |
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