g0df0cyy | Knowledge4COVID-19

Property	Value
?:abstract	Soft porous nanocrystals with a pronounced shape-memory effect exhibit two- to three-fold increase in elastic modulus compared to the microcrystalline counterpart as determined by atomic force microscopy nanoindentation. The increase in rigidity is consistent with the known shape-memory effect displayed by the framework solid at the nanoscale. Crystal downsizing can offer new avenues for tailoring the mechanical properties of metal-organic frameworks.
is ?:annotates of	<https://research.tib.eu/covid-19/entity/g0df0cyy_hasAnnotation_C3255829> <https://research.tib.eu/covid-19/entity/g0df0cyy_hasAnnotation_C4505073>
?:creator	<https://research.tib.eu/covid-19/entity/Tiba%2C_Al_A%3B_Conway%2C_Matthew_T%3B_Hill%2C_Collin_S%3B_Swenson%2C_Dale_C%3B_MacGillivray%2C_Leonard_R%3B_Tivanski%2C_Alexei_V>
?:doi	<https://research.tib.eu/covid-19/entity/10.1039/d0cc05684g>
?:doi	10.1039/d0cc05684g
?:journal	Chemical_communications
?:license	unk
?:pmid	<https://research.tib.eu/covid-19/entity/33305781.0>
?:pmid	33305781.0
?:publication_isRelatedTo_Disease	<https://research.tib.eu/covid-19/entity/COVID-19>
?:source	Medline
?:title	Mechanical rigidity of a shape-memory metal-organic framework increases by crystal downsizing.
?:type	<https://research.tib.eu/covid-19/vocab/Publication>
?:year	2020-12-11

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