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External stimuli-responsive Metal-organic framework (MOF) is generally referred as a flexible metal-organic framework. A variety of external stimuli like heat, light, solvent, electric field, magnetic field etc can act upon a Metal-organic framework and can act to change its internal structure and can facilitate the transformation process. This structural transformation generally occurs by bond breaking/ making, change of coordination number of the metal ion, change of coordination mode of ligand, ligand length squeezing, solvent exchange, solvent removal etc.^[1]

^ Structure and properties of dynamic metal–organic frameworks: a brief accounts of crystalline-to-crystalline and crystalline-to-amorphous transformations

[1] Structure and properties of dynamic metal–organic frameworks: a brief accounts of crystalline-to-crystalline and crystalline-to-amorphous transformations

[1]

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	External stimuli-responsive [[Metal-organic framework]] (MOF) is generally referred as a flexible metal-organic framework. A variety of external stimuli like heat, light, solvent, electric field, magnetic field etc can act upon a Metal-organic framework and can act to change its internal structure and can facilitate the transformation process. This structural transformation generally occurs by bond breaking/ making, change of coordination number of the metal ion, change of coordination mode of ligand, ligand length squeezing, solvent exchange, solvent removal etc.<ref>http://pubs.rsc.org/en/content/articlehtml/2018/ce/c7ce02066j</ref>		External stimuli-responsive [[Metal-organic framework]] (MOF) is generally referred as a flexible metal-organic framework. A variety of external stimuli like heat, light, solvent, electric field, magnetic field etc can act upon a Metal-organic framework and can act to change its internal structure and can facilitate the transformation process. This structural transformation generally occurs by bond breaking/ making, change of coordination number of the metal ion, change of coordination mode of ligand, ligand length squeezing, solvent exchange, solvent removal etc.<ref>[http://pubs.rsc.org/en/content/articlehtml/2018/ce/c7ce02066j Structure and properties of dynamic metal–organic frameworks: a brief accounts of crystalline-to-crystalline and crystalline-to-amorphous transformations]</ref>