Li Pengkun, Wu Runjie, Li Peishen, Gao Shuai, Qin Zeping, Song Xingjian, Sun Wenming, Hua Zhaorui, Wang Qiang, Chen Shaowei
Laboratory for Micro-sized Functional Materials & College of Elementary Education and Department of Chemistry, Capital Normal University, Beijing, 100048, China.
College of Environmental Sciences and Engineering, Key Laboratory of Water and Sediment Sciences (MOE), Peking University, Beijing, 100871, China.
Adv Sci (Weinh). 2024 Nov;11(41):e2408829. doi: 10.1002/advs.202408829. Epub 2024 Sep 5.
Photocatalytic fixation of nitrogen to ammonia represents an attractive alternative to the Haber-Bosch process under ambient conditions, and the performance can be enhanced by defect engineering of the photocatalysts, in particular, formation of shallow energy levels due to oxygen vacancies that can significantly facilitate the adsorption and activation of nitrogen. This calls for deliberate size engineering of the photocatalysts. In the present study, pyrochlore BiTiO quantum dots and (bulk-like) nanosheets are prepared hydrothermally by using bismuth nitrate and titanium sulfate as the precursors. Despite a similar oxygen vacancy concentration, the quantum dots exhibit a drastically enhanced photocatalytic performance toward nitrogen fixation, at a rate of 332.03 µmol g h, which is 77 times higher than that of the nanosheet counterpart. Spectroscopic and computational studies based on density functional theory calculations show that the shallow levels arising from oxygen vacancies in the BiTiO quantum dots, in conjunction with the moderately constrained quantum confinement effect, facilitate the chemical adsorption and activation of nitrogen.
在环境条件下,光催化固氮制氨是哈伯-博施法的一种有吸引力的替代方法,并且通过光催化剂的缺陷工程可以提高其性能,特别是由于氧空位形成的浅能级能够显著促进氮的吸附和活化。这就需要对光催化剂进行精心的尺寸工程设计。在本研究中,以硝酸铋和硫酸钛为前驱体,通过水热法制备了焦绿石BiTiO量子点和(块状)纳米片。尽管氧空位浓度相似,但量子点对固氮表现出显著增强的光催化性能,速率为332.03 µmol g⁻¹ h⁻¹,比纳米片对应物高77倍。基于密度泛函理论计算的光谱和计算研究表明,BiTiO量子点中氧空位产生的浅能级,结合适度受限的量子限域效应,促进了氮的化学吸附和活化。
Zotero 插件
