Size-Induced Highly Selective Synthesis of Organometallic Rectangular Macrocycles and Heterometallic Cage Based on Half-Sandwich Rhodium Building Block

The controlled synthesis of organometallic supramolecular macrocycles cages remains interesting and challenging work in the field of supramolecular chemistry. Here, two tetranuclear rectangular macrocycles and an octuclear cage were designed and synthesized utilizing a rigid and functionalized pillar linker, 2,6-bis(pyridin-4-yl)-1,7-dihydrobenzo [1,2-d:4,5-d′]diimidazole (BBI4PY) based on three half-sandwich rhodium building blocks bearing different sizes. X-ray crystallography in combination with 1H NMR spectroscopy elucidated that the two building blocks with shorter spacers only result in rectangular macrocycles. However, the building block of bulkier size to avoid the π-π stacking interactions between two ligands BBI4PY led to the formation of an octuclear cage complex. The latter cage contains two types of metal ions, namely Rh3+ and Cu2+, showing significant characteristics of heterogeneous metal-assembling compounds. In addition, the cage accommodates two free isopropyl ether solvent molecules, thus displaying host–guest behavior.

[1]  Li Dang,et al.  Highly selective synthesis and near-infrared photothermal conversion of metalla-Borromean ring and [2]catenane assemblies , 2022, Chemical science.

[2]  Chen Zhao,et al.  Stable Zinc-Based Metal-Organic Framework Photocatalyst for Effective Visible-Light-Driven Hydrogen Production , 2022, Molecules.

[3]  Qinghua Zhang,et al.  Intercalation-Activated Layered MoO3 Nanobelts as Biodegradable Nanozymes for Tumor-Specific Photo-Enhanced Catalytic Therapy. , 2022, Angewandte Chemie.

[4]  Dong‐sheng Li,et al.  Efficient Energy-Transfer-Induced High Photoelectric Conversion in a Dye-Encapsulated Ionic Pyrene-Based Metal-Organic Framework. , 2021, Inorganic chemistry.

[5]  G. Jin,et al.  Synthesis and Near-Infrared Photothermal Conversion of Discrete Supramolecular Topologies Featuring Half-Sandwich [Cp*Rh] Units. , 2021, Journal of the American Chemical Society.

[6]  D. Sui,et al.  Selective construction and stability studies of a molecular trefoil knot and Solomon link. , 2021, Dalton transactions.

[7]  Chen Zhao,et al.  A self-sensitized Co (II)-MOF for efficient visible-light-driven hydrogen evolution without additional cocatalysts , 2021, Journal of Solid State Chemistry.

[8]  Shuangquan Zang,et al.  High loading of Mn(II)-metalated porphyrin in a MOF for photocatalytic CO2 reduction in gas-solid conditions. , 2021, Chemical communications.

[9]  Yue-jian Lin,et al.  An "All-in-One" Synthetic Strategy for Linear Metalla[4]Catenanes. , 2021, Journal of the American Chemical Society.

[10]  Lufang Ma,et al.  Angle-Dependent Polarized Emission and Photoelectron Performance of Dye-Encapsulated Metal-Organic Framework. , 2021, Inorganic chemistry.

[11]  G. Jin,et al.  Stimuli-Responsive Topological Transformation of a Molecular Borromean Ring via Controlled Oxidation of Thioether Moieties. , 2021, Angewandte Chemie.

[12]  Lufang Ma,et al.  Long-lived room temperature phosphorescence of organic–inorganic hybrid systems , 2021 .

[13]  Dongpeng Yan,et al.  Highly enhanced UV-vis-NIR light harvesting and photoelectric conversion of a pyrene MOF by encapsulation of the D–π–A cyanine dye , 2020, Journal of Materials Chemistry C.

[14]  Tanya K. Ronson,et al.  Design and Applications of Water-Soluble Coordination Cages , 2020, Chemical reviews.

[15]  Qingming Shen,et al.  Ionic liquid induced highly dense assembly of porphyrin in MOF nanosheets for photodynamic therapy. , 2020, Dalton transactions.

[16]  Xiao-Gang Yang,et al.  Near-infrared phosphorescence emission of three-fold interpenetrated MOF based on 1,4-bis(imidazole-1-ylmethyl)benzene: Syntheses, structure and photoelectron performance , 2020 .

[17]  G. Jin,et al.  Adaptive Self‐Assembly and Induced‐Fit Interconversions between Molecular Borromean Rings, Russian Dolls and Ring‐in‐Ring Complexes † , 2020, Chinese Journal of Chemistry.

[18]  G. Jin,et al.  Stereoselective Synthesis of a Topologically Chiral Solomon Link. , 2020, Journal of the American Chemical Society.

[19]  Lufang Ma,et al.  Hexanuclear Zn(II)-Induced Dense π-Stacking in a Metal-Organic Framework Featuring Long-Lasting Room Temperature Phosphorescence. , 2020, Inorganic chemistry.

[20]  M. Poyatos,et al.  N-Heterocyclic Carbenes: A Door Open to Supramolecular Organometallic Chemistry. , 2020, Accounts of chemical research.

[21]  Dongpeng Yan,et al.  Fast Crystallization-Deposition of Orderly Molecule Level Heterojunction Thin Films Showing Tunable Up-Conversion and Ultrahigh Photoelectric Response , 2020, ACS central science.

[22]  G. Jin,et al.  Coordination-Directed Construction of Molecular Links. , 2020, Chemical reviews.

[23]  Eric D. Bloch,et al.  Permanently Microporous Metal-Organic Polyhedra. , 2020, Chemical reviews.

[24]  Lufang Ma,et al.  π-Type halogen bonding enhanced the long-lasting room temperature phosphorescence of Zn(ii) coordination polymers for photoelectron response applications , 2020 .

[25]  J. F. Stoddart,et al.  Mechanical-Bond-Induced Exciplex Fluorescence in an Anthracene-Based Homo[2]Catenane. , 2020, Journal of the American Chemical Society.

[26]  M. Fujita,et al.  A Double-Walled Knotted Cage for Guest-Adaptive Molecular Recognition. , 2020, Journal of the American Chemical Society.

[27]  Li Dang,et al.  s-Block metal ions induce structural transformations between figure-eight and double trefoil knots , 2020, Chemical Science.

[28]  Lufang Ma,et al.  Highly Dense Packing of Chromophoric Linkers Achievable in a Pyrene-Based Metal-Organic Framework for Photoelectric Response. , 2019, Inorganic chemistry.

[29]  Hong-Ru Fu,et al.  Tetraphenylethylene-Decorated Metal-Organic Frameworks as Energy-Transfer Platform for the Detection of Nitro-Antibiotics and White-Light Emission. , 2019, Inorganic chemistry.

[30]  Shuangquan Zang,et al.  Facile synthesis of a micro-scale MOF host-guest with long-lasting phosphorescence and enhanced optoelectronic performance. , 2019, Chemical communications.

[31]  G. Jin,et al.  Reversibly Structural Transformation between a Molecular Solomon Link and an Unusual Unsymmetrical Trefoil Knot. , 2019, Journal of the American Chemical Society.

[32]  A. Frontera,et al.  Synchronized On/Off Switching of Four Binding Sites for Water in a Molecular Solomon Link. , 2019, Angewandte Chemie.

[33]  G. Jin,et al.  Covalent Post-assembly Modification Triggers Structural Transformations of Borromean Rings. , 2019, Journal of the American Chemical Society.

[34]  A. Casini,et al.  Recent Developments of Supramolecular Metal-based Structures for Applications in Cancer Therapy and Imaging , 2019, Theranostics.

[35]  Li Dang,et al.  Coordination-driven self-assembly of a molecular figure-eight knot and other topologically complex architectures , 2019, Nature communications.

[36]  G. Jin,et al.  Highly Selective Synthesis of Iridium(III) Metalla[2]catenanes through Component Pre-Orientation by π⋅⋅⋅π Stacking. , 2019, Angewandte Chemie.

[37]  Liya Wang,et al.  {Zn6} Cluster Based Metal-Organic Framework with Enhanced Room-Temperature Phosphorescence and Optoelectronic Performances. , 2019, Inorganic chemistry.

[38]  Guo‐Ping Yang,et al.  Porous Zn(II)-Based Metal–Organic Frameworks Decorated with Carboxylate Groups Exhibiting High Gas Adsorption and Separation of Organic Dyes , 2018, Crystal Growth & Design.

[39]  Naiteng Wu,et al.  Dual-emission MOF⊃dye sensor for ratiometric fluorescence recognition of RDX and detection of a broad class of nitro-compounds , 2018 .

[40]  F. Hahn,et al.  Template Synthesis of Three-Dimensional Hexakisimidazolium Cages. , 2018, Angewandte Chemie.

[41]  S. Goldup,et al.  A [3]Rotaxane Host Selects Between Stereoisomers. , 2018, Angewandte Chemie.

[42]  G. Jin,et al.  Light-initiated reversible conversion of macrocyclic endoperoxides derived from half-sandwich rhodium-based metallarectangles. , 2018, Dalton transactions.

[43]  Zhan Zhou,et al.  Tetraphenylethylene immobilized metal-organic frameworks: highly sensitive fluorescent sensor for the detection of Cr2O72- and nitroaromatic explosives , 2017 .

[44]  G. Clever,et al.  Cation-Anion Arrangement Patterns in Self-Assembled Pd2L4 and Pd4L8 Coordination Cages. , 2017, Accounts of chemical research.

[45]  Wang Yu-Fang,et al.    Syntheses, Crystal Structures and Characterization of Two Coordination Polymers Based on Mixed Ligands , 2017 .

[46]  H. Hou,et al.  Photoswitchable nonlinear optical properties of metal complexes. , 2017, Dalton transactions.

[47]  J. Qin,et al.  Mono/bimetallic water-stable lanthanide coordination polymers as luminescent probes for detecting cations, anions and organic solvent molecules. , 2016, Dalton transactions.

[48]  Hyunuk Kim,et al.  Template-Free Synthesis of a Molecular Solomon Link by Two-Component Self-Assembly. , 2016, Angewandte Chemie.

[49]  H. Hou,et al.  Crystalline central-metal transformation in metal-organic frameworks , 2016 .

[50]  Liya Wang,et al.  Syntheses, crystal structures, and magnetic studies of two cobalt(II) coordination polymers based on concurrent ligand extension , 2015 .

[51]  Liya Wang,et al.  Exploring the structural diversities and magnetic properties of copper(II) and manganese(II) complexes based on 5-methoxyisophthalate and flexible bis(imidazole) ligands , 2014 .

[52]  Peter J Stang,et al.  Supramolecular coordination: self-assembly of finite two- and three-dimensional ensembles. , 2011, Chemical reviews.

[53]  J Fraser Stoddart,et al.  Chemical topology: complex molecular knots, links, and entanglements. , 2011, Chemical reviews.

[54]  P. Stang,et al.  Self-organization in coordination-driven self-assembly. , 2009, Accounts of chemical research.

[55]  David A Leigh,et al.  Active metal template synthesis of rotaxanes, catenanes and molecular shuttles. , 2009, Chemical Society reviews.

[56]  G. Sheldrick A short history of SHELX. , 2008, Acta crystallographica. Section A, Foundations of crystallography.

[57]  G. Sheldrick Phase annealing in SHELX-90: direct methods for larger structures , 1990 .