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白俊峰团队卢治拥教授在《JACS》发表研究论文
阅读次数:添加时间:2023/03/09 发布:

Isomer of NU-1000 with a Blocking c-pore Exhibits High Water–Vapor Uptake Capacity and Greatly Enhanced Cycle Stability

Zhiyong Lu,*a,dJiaxin Duan,bHao Tan,dLiting Du,cXiang Zhao,dRui Wang,bSatoshi Kato,bShilong Yang,cJoseph T. Hupp*b

aCollege of Chemistry and Molecular Engineering, Nanjing Tech University, Nanjing 210009, China

bDepartment of Chemistry, Northwestern University, 2145 Sheridan Road, Evanston, Illinois 60208, USA

cAdvanced Analysis and Testing Center, Nanjing Forestry University, Nanjing 210037, China

dCollege of Mechanics and Materials, Hohai University, Nanjing 210098, China



ABSTRACT:Chemically and hydrolytically stable MOFs have shown great potential for many water-adsorption-related applications. However, MOFs with large pores that show high water-uptake capacity and high hydrolytic and mechanical cycle stability are rare. Through a deliberate adjustment of the linker of a typical Zr-MOF (NU-1000), a new isomer ofNU-1000with blockedc-pores, but large mesopores was successfully synthesized. This new isomer,ISO-NU-1000, exhibits excellent water stability, one of the highest water vapor uptake capacities, and excellent cycle stability, making it a promising candidate for water-vapor-sorption-based applications such as water-adsorption-driven heat transfer. We find that the high water-cycling stability ofISO-NU-1000is traceable to its blockingc-pore that hinders the hydrolysis of node-coordinating formate in thec-pore area and thereby prevents the introduction of node aqua and terminal hydroxo ligands. Absent these ligands and their ability to hydrogen-bond to channel-located water molecules, the strength of guest (water)/host (MOF) interactions is diminished and the absolute magnitude of the capillary force exerted by water during its evacuation from MOF channels is attenuated. The attenuation leaves the MOF capable of resisting pore collapse, capacity loss, and crystallinity loss during repetitive evaporative removal (and re-introduction) of water from pores.




J. Am. Chem. Soc.2023,145, 4150–4157影响因子: 16.383

论文链接:https://doi.org/10.1021/jacs.2c12362


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