Homo- and heterometallic coordination polymers from the f elements

Christopher L. Cahill; Daniel T. de Lill; M. Frisch

doi:10.1039/b615696g

Abstract

Lanthanide and actinide based coordination polymers and metal–organic framework materials present a number of interesting opportunities with respect to their syntheses and properties. Ln elements typically display large coordination numbers and roughly spherical bonding environments whereas An elements (specifically U(VI)) tend to form triatomic species with terminal oxo groups. As such, these features may be perceived by some as obstacles to the development of designed architectures of f-metal containing hybrid materials. We argue that these features, when coupled to the luminescent behavior of these elements actually give rise to a diverse family of compounds with a range of interesting topologies. Presented herein is an overview of the structural features and luminescent behavior of these materials, as well as some synthetic strategies toward producing both homo- and heterometallic compounds.

Keywords

LanthanideLuminescencePolymerMaterials scienceCoordination numberActinideMetalNanotechnologyCrystallographyChemical physicsTopology (electrical circuits)ChemistryInorganic chemistryOrganic chemistryMathematicsOptoelectronicsMetallurgy

Affiliated Institutions

Related Publications

Microporous Metal−Organic Frameworks Formed in a Stepwise Manner from Luminescent Building Blocks

Brett D. Chandler , David T. Cramb , George K. H. Shimizu

A series of trivalent lanthanides (Sm, Eu, Gd, Tb, Dy) have been complexed to the dianionic ligand, 4,4'-disulfo-2,2'-bipyridine-N,N'-dioxide, L, in a 3:1 ratio to form trianion...

2006 Journal of the American Chemical Society 370 citations

Luminescent metal–organic frameworks

Mark D. Allendorf , Christina A. Bauer , Raghu Bhakta +1 more

Metal-organic frameworks (MOFs) display a wide range of luminescent behaviors resulting from the multifaceted nature of their structure. In this critical review we discuss the o...

2009 Chemical Society Reviews 4848 citations

A Luminescent Mixed-Lanthanide Metal–Organic Framework Thermometer

Yuanjing Cui , Hui Xu , Yan‐Feng Yue +7 more

A luminescent mixed lanthanide metal-organic framework approach has been realized to explore luminescent thermometers. The targeted self-referencing luminescent thermometer Eu(0...

2012 Journal of the American Chemical Society 1128 citations

Luminescent multifunctional lanthanides-based metal–organic frameworks

João Rocha , Luís D. Carlos , Filipe A. Almeida Paz +1 more

Metal-organic frameworks based on trivalent lanthanides (LnMOFs) are a very promising class of materials for addressing the challenges in engineering of luminescent centres. Lan...

2010 Chemical Society Reviews 1577 citations

Transition Metal Dichalcogenides and Their Intercalates

E.A. Marseglia

Abstract The transition metal dichalcogenides form a group of layered, highly anisotropic compounds which exhibit interesting and unusual physical properties. Compounds formed f...

1983 International Reviews in Physical Che... 115 citations

Publication Info

Year: 2006
Type: article
Volume: 9
Issue: 1
Pages: 15-26
Citations: 415
Access: Closed

External Links

View on DOI.org

Social Impact

Altmetric

Homo- and heterometallic coordination polymers from the f elements

PlumX Metrics

Social media, news, blog, policy document mentions

Citation Metrics

415

OpenAlex

Cite This

APA Style

                            
                                    Christopher L. Cahill, 
                                
                                    Daniel T. de Lill, 
                                
                                    M. Frisch
                                
                            (2006). 
                            Homo- and heterometallic coordination polymers from the f elements. 
                            CrystEngComm
                            , 9
                            (1)
                            , 15-26.
                            https://doi.org/10.1039/b615696g

Identifiers

DOI: 10.1039/b615696g