Thermal Stability of Metal-Organic Frameworks and Encapsulation of CuO Nanocrystals for Highly Active Catalysis

Hsuan Lan Wang, Hsin Yeh, Yi Chen Chen, Yen Chih Lai, Chih Yuan Lin, Kai Yuan Lu, Rong Ming Ho, Bin Han Li, Chia Her Lin, De Hao Tsai*

*此作品的通信作者

研究成果: 雜誌貢獻期刊論文同行評審

61 引文 斯高帕斯(Scopus)

摘要

We report an aerosol-based approach to study the thermal stability of metal-organic frameworks (MOFs) for gas-phase synthesis of MOF-based hybrid nanostructures used for highly active catalysis. Temperature-programmed electrospray-differential mobility analysis (TP-ES-DMA) provides the characterization of temperature-dependent morphological change directly in the gas phase, and the results are shown to be highly correlated with the structural thermal stability of MOFs determined by the traditional measurements of porosity and crystallinity. The results show that MOFs underwent thermal decomposition via simultaneous disassembly and deaggregation. Trimeric Cr-based MIL-88B-NH2 exhibited a higher temperature of decomposition (Td), 350 °C, than trimeric Fe-based MIL-88B-NH2, 250 °C. For UiO-66, a significant decrease of Td by â‰100 °C was observed by using amine-functionalized ligands in the MOF structure. Copper oxide nanocrystals were successfully encapsulated in the UiO-66 crystal (CuxO@UiO-66) by using a gas-phase evaporation-induced self-assembly approach followed by a suitable thermal treatment below Td (i.e., determined by TP-ES-DMA). CuxO@UiO-66 demonstrated a very high catalytic activity and stability to CO oxidation, showing at least a 3-time increase in CO conversion compared to the bare CuO nanoparticle samples. The study demonstrates a prototype methodology (1) to determine structural thermal stability of MOFs using a gas-phase electrophoretic method (TP-ES-DMA) and (2) to gas-phase synthesize CuO nanocrystals encapsulated in MOFs.

原文英語
頁(從 - 到)9332-9341
頁數10
期刊ACS Applied Materials and Interfaces
10
發行號11
DOIs
出版狀態已發佈 - 2018 3月 21
對外發佈

ASJC Scopus subject areas

  • 一般材料科學

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