Metal-Organic Frameworks with Heterogeneous Structures. Группа авторов

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      1 Scheme 2.1 The conversion of an achiral MOF to a chiral MOF by using an achiral organic linker.

      2 Scheme 3.1 Structure of the used ligands.

      3 Scheme 3.2 Structures of the used organic dyes.

      4 Scheme 3.3 Biginelli reaction by using ADES-1.

      5 Scheme 6.1 Synthesis conditions to produce chiral metal-camphorate coordination polymers 1–5.

      6 Scheme 6.2 Coordination modes of D-Cam and D-HCam in polymeric structures 1–5.

      7 Scheme 7.1 Synthesis method of chiral [MIL-101(Cr)-tart].

      8 Scheme 7.2 Interactions in the preparation of [MIL-101(Cr)-tart].

      9 Scheme 7.3 The preparation steps of post-chiral modification NU-1000 by SALI method and then Mo-catalyst immobilization on chiral species.

      10 Scheme 10.1 Suggested mechanism of carbon dioxide cycloaddition with epoxide by bimetal mixed MOFs.

      The study of metal-organic frameworks (MOFs) as porous crystalline materials has risen rapidly over recent years due to their unique properties and various potential applications. Until now, thousands of MOFs have been prepared with wonderful new designs and further precision in the synthesis methods.

      As known, MOFs chemistry is started with the main two components: inorganic and organic units. But, it is of interest to know that most of them have homogeneous structure with having one of each kind of component. Recently, MOFs with heterogeneous structures have been attracting strong attention due to their interesting structure and features. These kinds of materials in their body have more kinds of components that lead to structural complexities. The understanding of effective agents in the production of MOFs with heterogeneous structures is another key and important concept that is not easy. Given that how these kinds of heterogeneous porous MOFs are constructed is attractive, so, in this book, we focus on advances in research on MOFs with heterogeneous structures covering mixed components (metals/ligands), multi-heterotopic linkers, defect, heterogeneous pores, mixed MOFs, and, most importantly, chiral MOFs along with some examples. These different cases lead to diversity of parent architectures, and finally, the complexity and heterogeneity appear in them. Many reports have been presented about different kinds of MOFs but some of them are very complex therefore the attempt to their understanding should be increased. This book can help further understanding of these kinds of MOFs.

       Ali Morsali and Kayhaneh Berijani Department of Chemistry, Tarbiat Modares UniversityTehran, Islamic Republic of Iran July 2021

1,3-BDC (1,3)-Benzene dicarboxylate
MUF Massey University Framework
BTB Benzene-1,3,5-tribenzoate
BTC Benzene-1,3,5-tricarboxylate
1,4-BDC 1,4-benzenedicarboxylate
BPDC 4,4′-biphenyldicarboxylate
Bz-IM Benzimidazole
OHC-IM Carboxaldehyde-2-imidazole
D-Cam D-camphanic acid
bpdc 4,4′-Diphenyl dicarboxylate
D-POST-1 [Zn33-O)(1-H)6].2H3O.12H2O
MM′-MOF Mixed-metals MOF
MBBs Molecular building blocks
MTV-MOF Multivariate metal−organic framework
2-MeIM 2-Methylimidazole
NLO Non-linear optics
PL-MOFs Pillared layer metal-organic frameworks
PSM Post-synthetic modification
SBUs Secondary building units
SBBs Supramolecular building blocks
SBLs Supramolecular building layers
TBUs Tertiary building units
F5CPP 5,10,15-Tris(p-carboxyphenyl)-20 (pentafluorophenyl) porphyrin
ZABUs Zinc-adeninate octahedral building units
ZJU Zheijang University
H4TBAPy 1,3,6,8-Tetrakis(p-benzoic acid)pyrene
Zn-TCPP [5,10,15,20-Tetrakis(4-carboxy-phenyl) porphyrinato]-Zn(II)
Inductively coupled plasma-optical emission spectroscopy
Zn-MI [Zn4O(3-Methyl-5-isopropyl-4-carboxypyrazolate)3]n
Zn-DM [Zn4O(3,5-Dimethyl-4-carboxypyrazolate)3]n
SAM Self-assembled monolayer
Dcam (1R,3S)-(+)-Camphoric acid
dabco Diazabicyclo(2.2.2)octane)
ndc Naphthalene dicarboxylate
dabco 1,4-Diazabicyclo[2.2.2]octane)
bipy Bipyridine
bpe Bis(4-pyridyl)-ethylene
dpndi N,N’-Di(4-pyridyl)-1,4,5,8-naphthalene tetracarboxydiimide
adc Anthracene dicarboxylate
NDC 2,6-Naphthalenedicarboxylate
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