Metal Organic Frameworks: Synthesis and Application

Metal–organic frameworks are among the most promising novel materials. The concept of MOFs was first introduced in 1990. They were actually initially used in catalysis, gas separation, membranes, electrochemical sensors. Later on, they were introduced as SPE sorbents for PAHs (Polycyclic Aromatic Hy...

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Главные авторы: Deliyanni, Eleni, Samanidou, Victoria
Формат: Online
Язык:английский
Опубликовано: MDPI - Multidisciplinary Digital Publishing Institute 2021
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Online-ссылка:44863
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author Deliyanni, Eleni
Samanidou, Victoria
author_browse Deliyanni, Eleni
Samanidou, Victoria
author_facet Deliyanni, Eleni
Samanidou, Victoria
author_sort Deliyanni, Eleni
collection Directory of Open Access Books
description Metal–organic frameworks are among the most promising novel materials. The concept of MOFs was first introduced in 1990. They were actually initially used in catalysis, gas separation, membranes, electrochemical sensors. Later on, they were introduced as SPE sorbents for PAHs (Polycyclic Aromatic Hydrocarbons) in environmental water samples, then the range expanded to the field of analytical chemistry, both in chromatographic separation and sample preparation, with great success in, e.g., SPE and SPME (Solid Phase Mico-extraction). Since then, the number of analytical applications implementing MOFs as sorbents in sorptive sample preparation approaches is increasing. ?his is reinforced by the fact that, at least theoretically, an infinite number of structures can be designed and synthesized, thus making tuneability one of the most unique characteristics of MOF materials. Moreover, they have been designed in various shapes, such as columns, fibers, and films, so that they can meet more analytical challenges with improved analytical features.Their exceptional properties attracted the interest of analytical chemists who have taken advantage of the unique structures and properties and have already introduced them in several sample pretreatment techniques, such as solid phase extraction, dispersive SPE, magnetic solid phase extraction, solid phase microextraction, stir bar sorptive extraction, etc.
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spelling doab-20.500.12854ir-532482024-04-05T12:38:54Z Metal Organic Frameworks: Synthesis and Application Deliyanni, Eleni Samanidou, Victoria QD1-999 QD146-197 Q1-390 metal organic framework (MOF) n/a thiophenic compounds temperature sensors Pb(II) doping metals dispersive miniaturized solid-phase extraction 6-dimethyldibenzothiophene (4 microextraction drug delivery chitosan beads 6-DMDBT) adsorptive desulfurization of fuels metal-organic framework mixed-ligand antimicrobial agents pillared food samples large-pore paddle-wheel adsorption non-catenated structural heterogeneity MOFs extraction metal ions sample preparation metal-organic frameworks interactions MOF–analyte luminescence 4 spectrometry color tuning antibiotics magnetic resonance imaging UiO-66 lanthanides metal organic framework dibenzothiophene (DBT) GC metal–organic frameworks mixed functionalization HPLC environmental samples MOF porosity polymer nanocomposites metal organic framework composites biological samples hydrogen-bonding oxidized graphitic carbon nitride nanoparticles fish thema EDItEUR::P Mathematics and Science::PN Chemistry Metal–organic frameworks are among the most promising novel materials. The concept of MOFs was first introduced in 1990. They were actually initially used in catalysis, gas separation, membranes, electrochemical sensors. Later on, they were introduced as SPE sorbents for PAHs (Polycyclic Aromatic Hydrocarbons) in environmental water samples, then the range expanded to the field of analytical chemistry, both in chromatographic separation and sample preparation, with great success in, e.g., SPE and SPME (Solid Phase Mico-extraction). Since then, the number of analytical applications implementing MOFs as sorbents in sorptive sample preparation approaches is increasing. ?his is reinforced by the fact that, at least theoretically, an infinite number of structures can be designed and synthesized, thus making tuneability one of the most unique characteristics of MOF materials. Moreover, they have been designed in various shapes, such as columns, fibers, and films, so that they can meet more analytical challenges with improved analytical features.Their exceptional properties attracted the interest of analytical chemists who have taken advantage of the unique structures and properties and have already introduced them in several sample pretreatment techniques, such as solid phase extraction, dispersive SPE, magnetic solid phase extraction, solid phase microextraction, stir bar sorptive extraction, etc. 2021-02-11T19:22:32Z 2021-02-11T19:22:32Z 2020-04-07 23:07:09 2020 book 44863 9783039284870 9783039284863 https://directory.doabooks.org/handle/20.500.12854/53248 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/2140 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03928-487-0 10.3390/books978-3-03928-487-0 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039284870 9783039284863 198 open access
spellingShingle QD1-999
QD146-197
Q1-390
metal organic framework (MOF)
n/a
thiophenic compounds
temperature sensors
Pb(II)
doping
metals
dispersive miniaturized solid-phase extraction
6-dimethyldibenzothiophene (4
microextraction
drug delivery
chitosan beads
6-DMDBT)
adsorptive desulfurization of fuels
metal-organic framework
mixed-ligand
antimicrobial agents
pillared
food samples
large-pore
paddle-wheel
adsorption
non-catenated
structural heterogeneity
MOFs
extraction
metal ions
sample preparation
metal-organic frameworks
interactions MOF–analyte
luminescence
4
spectrometry
color tuning
antibiotics
magnetic resonance imaging
UiO-66
lanthanides
metal organic framework
dibenzothiophene (DBT)
GC
metal–organic frameworks
mixed functionalization
HPLC
environmental samples
MOF
porosity
polymer nanocomposites
metal organic framework composites
biological samples
hydrogen-bonding
oxidized graphitic carbon nitride nanoparticles
fish
thema EDItEUR::P Mathematics and Science::PN Chemistry
Deliyanni, Eleni
Samanidou, Victoria
Metal Organic Frameworks: Synthesis and Application
title Metal Organic Frameworks: Synthesis and Application
title_full Metal Organic Frameworks: Synthesis and Application
title_fullStr Metal Organic Frameworks: Synthesis and Application
title_full_unstemmed Metal Organic Frameworks: Synthesis and Application
title_short Metal Organic Frameworks: Synthesis and Application
title_sort metal organic frameworks synthesis and application
topic QD1-999
QD146-197
Q1-390
metal organic framework (MOF)
n/a
thiophenic compounds
temperature sensors
Pb(II)
doping
metals
dispersive miniaturized solid-phase extraction
6-dimethyldibenzothiophene (4
microextraction
drug delivery
chitosan beads
6-DMDBT)
adsorptive desulfurization of fuels
metal-organic framework
mixed-ligand
antimicrobial agents
pillared
food samples
large-pore
paddle-wheel
adsorption
non-catenated
structural heterogeneity
MOFs
extraction
metal ions
sample preparation
metal-organic frameworks
interactions MOF–analyte
luminescence
4
spectrometry
color tuning
antibiotics
magnetic resonance imaging
UiO-66
lanthanides
metal organic framework
dibenzothiophene (DBT)
GC
metal–organic frameworks
mixed functionalization
HPLC
environmental samples
MOF
porosity
polymer nanocomposites
metal organic framework composites
biological samples
hydrogen-bonding
oxidized graphitic carbon nitride nanoparticles
fish
thema EDItEUR::P Mathematics and Science::PN Chemistry
topic_facet QD1-999
QD146-197
Q1-390
metal organic framework (MOF)
n/a
thiophenic compounds
temperature sensors
Pb(II)
doping
metals
dispersive miniaturized solid-phase extraction
6-dimethyldibenzothiophene (4
microextraction
drug delivery
chitosan beads
6-DMDBT)
adsorptive desulfurization of fuels
metal-organic framework
mixed-ligand
antimicrobial agents
pillared
food samples
large-pore
paddle-wheel
adsorption
non-catenated
structural heterogeneity
MOFs
extraction
metal ions
sample preparation
metal-organic frameworks
interactions MOF–analyte
luminescence
4
spectrometry
color tuning
antibiotics
magnetic resonance imaging
UiO-66
lanthanides
metal organic framework
dibenzothiophene (DBT)
GC
metal–organic frameworks
mixed functionalization
HPLC
environmental samples
MOF
porosity
polymer nanocomposites
metal organic framework composites
biological samples
hydrogen-bonding
oxidized graphitic carbon nitride nanoparticles
fish
thema EDItEUR::P Mathematics and Science::PN Chemistry
url 44863
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