期刊
NANO
卷 16, 期 10, 页码 -出版社
WORLD SCIENTIFIC PUBL CO PTE LTD
DOI: 10.1142/S1793292021501162
关键词
Sulfonation; mesoporous silica film; ion exchange membrane; permselectivity; cation
资金
- Postgraduate Research & Practice Innovation Program of Jiangsu Province [KYCX19-2274]
- Haiyan Plan of Lian yungang [2019-QD-011]
- Innovation Foundation of Jiangsu Ocean University [KQ15008, Z2016004]
- Funds of Jiangsu Key Laboratory of Function Control Technology for Advanced Materials [AM201801]
- Key Nature Science Founding of the Higher Education Insittutinos of Jiangsu Province of China [19KJA430008]
A new type of ultrathin sulfonated mesoporous silica film with well-ordered perpendicular mesochannels was successfully synthesized in this paper. The film exhibited high permselectivity and good stability, making it promising for applications in salinity gradient energy harvest.
In this paper, a new type of ultrathin sulfonated mesoporous silica film (SMSF) with well-ordered perpendicular mesochannels was in-situ synthesized by Stober approach and co-condensation method. The mesostructure of the synthesized SMSF was characterized. The results of small-angle XRD, high-resolution TEM, and cyclic voltammetry (CV) exhibited that, after loading of MPTMS, SMSF had an ordered mesostructure with a perpendicular orientation and open ends. SEM showed that SMSF could be entirely transferred and easily handled. FT-IR presented that sulfonic groups were successfully added to the surface of the nanochannels of silica film. Compared with mesoporous silica film (MSF) and commercial cation exchange membrane (CEM), SMSF had the highest permselectivity. The permselectivity of SMSF was not lined with the loading of the sulfonic groups (-SO3H). The highest permselectivity of SMSF to Na+ was 94% when the loading of MPTMS was 5.98% (wt.%). SMSF is a promising material in the application of salinity gradient energy harvest.
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