Cyclodextrin-metal–organic framework (CD-MOF): From synthesis to applications
Journal of Industrial and Engineering Chemistry, 2019•Elsevier
Porous coordination compounds, commonly known as metal–organic frameworks (MOFs),
exhibit many unique characteristics (eg, high surface area, high porosity, and tunability). The
corresponding naturally occurring counterparts, CD-MOFs have opened a new avenue of
research in light of its non-toxic, edible, and renewable nature. These characteristics have
led to their applications into numerous directions including drug delivery, CO 2 capture,
separation/purification, adsorption, sensors, food packaging, electrical conductors …
exhibit many unique characteristics (eg, high surface area, high porosity, and tunability). The
corresponding naturally occurring counterparts, CD-MOFs have opened a new avenue of
research in light of its non-toxic, edible, and renewable nature. These characteristics have
led to their applications into numerous directions including drug delivery, CO 2 capture,
separation/purification, adsorption, sensors, food packaging, electrical conductors …
Abstract
Porous coordination compounds, commonly known as metal–organic frameworks (MOFs), exhibit many unique characteristics (e.g., high surface area, high porosity, and tunability). The corresponding naturally occurring counterparts, CD-MOFs have opened a new avenue of research in light of its non-toxic, edible, and renewable nature. These characteristics have led to their applications into numerous directions including drug delivery, CO2 capture, separation/purification, adsorption, sensors, food packaging, electrical conductors, memristors, photocatalysis, and polymerization. In this review, we provide a brief discussion about the available technologies for the synthesis of CD-MOFs and their applications in many prospective areas.
Elsevier
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