Journal
CRYSTENGCOMM
Volume 19, Issue 3, Pages 426-441Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c6ce02246d
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Funding
- Ministry of Science and Technology of Taiwan, R.O.C. [MOST 104-2221-E-008-070-MY3]
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The interdependence of crystallinity, secondary building unit (SBU) formation, linker vacancy, crystal habit, photoluminescence, and surface area for UiO-66 and In-MIL-68, respectively, produced by different processing modes has been fully investigated and linked together to comprehend the relationships among SBU synthesis pathways, structures, and functional properties. The solid-state properties of UiO-66 were found to be process-sensitive, but those of In-MIL-68 except for crystal habits were mode independent, most likely due to the versatile Zr-6(mu(3)-O)(4)(mu(3)-OH)(4)(CO2) (12) SBU formation steps with more competing events for UiO-66 and the relatively straightforward {In(mu-O2CR)(2)(mu-OH)}(infinity) chain SBU formation steps for In-MIL-68. The reproducibility of the desired properties of metal-organic frameworks (MOFs) relies on the crystallization process designed for specific SBU formation and nucleation trajectory.
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