Self-assembly of hybrid organic-inorganic polyoxovanadates: functionalised mixed-valent clusters and molecular cages.

Herein we report the intra- and inter-molecular assembly of a {V(5)O(9)} subunit. This mixed-valent structural motif can be stabilised as [V(5)O(9)(L(1-3))(4)](5-/9-) (1-3) by a range of organoarsonate ligands (L(1)-L(3)) whose secondary functionalities influence its packing arrangement within the crystal structures. Variation of the reaction conditions results in the dodecanuclear cage structure [V(12)O(14)(OH)(4)(L(1))(10)](4-) (4) where two modified convex building units are linked via two dimeric {O(4)V(IV)(OH)(2)V(IV)O(4)} moieties. Bi-functional phosphonate ligands, L(4)-L(6) allow the intramolecular connectivity of the {V(5)O(9)} subunit to give hybrid capsules [V(10)O(18)(L(4-6))(4)](10-) (5-7). The dimensions of the electrophilic cavities of the capsular entities are determined by the incorporated ligand type. Mass spectrometry experiments confirm the stability of the complexes in solution. We investigate and model the temperature-dependent magnetic properties of representative complexes 1, 4, 6 and 7 and provide preliminary cell-viability studies of three different cancer cell lines with respect to Na(8)H(2)[6]·36H(2)O and Na(8)H(2)[7]·2DMF·29H(2)O.

[1]  Lei Zhang,et al.  From platonic templates to Archimedean solids: successive construction of nanoscopic {V16As8}, {V16As10}, {V20As8}, and {V24As8} polyoxovanadate cages. , 2011, Journal of the American Chemical Society.

[2]  T. McCabe,et al.  Self-assembly of hybrid organic-inorganic polyoxomolybdates: solid-state structures and investigation of formation and core rearrangements in solution. , 2011, Inorganic chemistry.

[3]  G. Jameson,et al.  A noble-metalate bowl: the polyoxo-6-vanado(V)-7-palladate(II) [Pd7V6O24(OH)2]6-. , 2010, Angewandte Chemie.

[4]  Xin-Xiong Li,et al.  Cubic polyoxometalate-organic molecular cage. , 2010, Journal of the American Chemical Society.

[5]  T. Gunnlaugsson,et al.  Colorimetric and fluorescent anion sensors: an overview of recent developments in the use of 1,8-naphthalimide-based chemosensors. , 2010, Chemical Society reviews.

[6]  Zhong-Min Su,et al.  Hydrogen Adsorption in Polyoxometalate Hybrid Compounds Based on Porous Metal‐Organic Frameworks , 2010 .

[7]  G. Campiani,et al.  Novel microtubule-targeting agents, pyrrolo-1,5-benzoxazepines, induce apoptosis in multi-drug-resistant cancer cells , 2010, Cancer Chemotherapy and Pharmacology.

[8]  C. R. Mayer,et al.  Hybrid organic-inorganic polyoxometalate compounds: from structural diversity to applications. , 2010, Chemical reviews.

[9]  G. Campiani,et al.  Novel pyrrolo-1,5-benzoxazepine compounds display significant activity against resistant chronic myeloid leukaemia cells in vitro, in ex vivo patient samples and in vivo , 2010, British Journal of Cancer.

[10]  Fengping Xiao,et al.  Polyoxometalatocyclophanes: controlled assembly of polyoxometalate-based chiral metallamacrocycles from achiral building blocks. , 2010, Journal of the American Chemical Society.

[11]  Zhongmin Su,et al.  Theoretical study on the tetranuclear endohedral vanadyl carboxylates with guest-switchable redox properties and large polarizability. , 2010, Dalton transactions.

[12]  Andrew J. S. Knox,et al.  Synthesis and serotonin transporter activity of sulphur-substituted alpha-alkyl phenethylamines as a new class of anticancer agents. , 2009, European journal of medicinal chemistry.

[13]  C. R. Mayer,et al.  Coupled sensitizer-catalyst dyads: electron-transfer reactions in a perylene-polyoxometalate conjugate. , 2009, Chemistry.

[14]  L. Cronin,et al.  Sorting the assemblies of unsymmetrically covalently functionalized mn-anderson polyoxometalate clusters with mass spectrometry. , 2008, Inorganic chemistry.

[15]  W. Schmitt,et al.  Hybrid organic-inorganic polyoxometalates: functionalization of V(IV)/V(V) nanosized clusters to produce molecular capsules. , 2008, Angewandte Chemie.

[16]  R. Thouvenot,et al.  Functionalization of polyoxometalates: towards advanced applications in catalysis and materials science. , 2008, Chemical communications.

[17]  A. Clearfield,et al.  Mixed-valent dodecanuclear vanadium cluster encapsulating chloride anions and its reaction to form a "bowl"-shaped cluster. , 2008, Inorganic chemistry.

[18]  Michael G. Fehlings,et al.  Self-Assembling Nanofibers Inhibit Glial Scar Formation and Promote Axon Elongation after Spinal Cord Injury , 2008, The Journal of Neuroscience.

[19]  C. Hill,et al.  A coordination network that catalyzes O2-based oxidations. , 2007, Journal of the American Chemical Society.

[20]  M. Venkatesan,et al.  Engineering coordination assemblies of dinuclear CuII complexes. , 2007, Dalton transactions.

[21]  A. Powell,et al.  Self-assembly of FeIII complexes via hydrogen bonded water molecules into supramolecular coordination networks , 2007 .

[22]  C. O'connor Magnetochemistry—Advances in Theory and Experimentation , 2007 .

[23]  L. Cronin,et al.  Towards polyoxometalate-integrated nanosystems. , 2006, Chemistry.

[24]  M. Tamura,et al.  Diels-Alder in Aqueous Molecular Hosts: Unusual Regioselectivity and Efficient Catalysis , 2006, Science.

[25]  T. Yamase Anti-tumor, -viral, and -bacterial activities of polyoxometalates for realizing an inorganic drug , 2005 .

[26]  A. Powell,et al.  Thermolysis of a hybrid organic-inorganic supramolecular coordination assembly: templating the formation of nanostructured fibrous materials and carbon-based microcapsules. , 2005, Angewandte Chemie.

[27]  C. O'connor,et al.  Synthesis and characterization of a polyoxovanadate cluster representing a new topology. , 2005, Chemical communications.

[28]  A. Caneschi,et al.  Supramolecular coordination assemblies of dinuclear Fe(III) complexes. , 2005, Angewandte Chemie.

[29]  F. Jiang,et al.  A basket tetradecavanadate cluster with blue luminescence. , 2005, Journal of the American Chemical Society.

[30]  E. Wang,et al.  The first discrete mixed-valence hexadecavanadate host shell cluster anions: hydrothermal synthesis, structure and characterization of [V 16 O 38 (Cl)] 8- , 2004 .

[31]  Zhonghua Peng Rational synthesis of covalently bonded organic-inorganic hybrids. , 2004, Angewandte Chemie.

[32]  A. Stein,et al.  A coordination network containing non-coordinating polyoxometalate clusters as counterions , 2003 .

[33]  A. Clearfield,et al.  Sulfonated microporous organic-inorganic hybrids as strong Bronsted acids. , 2003, Journal of the American Chemical Society.

[34]  Anthony L. Spek,et al.  Journal of , 1993 .

[35]  A. Evangelou Vanadium in cancer treatment. , 2002, Critical reviews in oncology/hematology.

[36]  I. Weinstock,et al.  Equilibrating metal-oxide cluster ensembles for oxidation reactions using oxygen in water , 2001, Nature.

[37]  Johann Spandl,et al.  Solvothermal Synthesis of a 24-Nuclear, Cube-Shaped Squarato-oxovanadium(IV) Framework: [N(nBu)4 ]8 [V24 O24 (C4 O4 )12 (OCH3 )32 ]. , 2001, Angewandte Chemie.

[38]  Christopher E. Anson,et al.  [Al15(μ3‐O)4(μ3‐OH)6(μ‐OH)14(hpdta)4]3−—A New Al15 Aggregate Which Forms a Supramolecular Zeotype , 2001 .

[39]  A. Stein,et al.  Synthesis and characterization of 2D and 3D structures from organic derivatives of polyoxometalate clusters: role of organic moiety, counterion, and solvent. , 2001, Inorganic chemistry.

[40]  Zhonghua Peng,et al.  An efficient and convenient reaction protocol to organoimido derivatives of polyoxometalates. , 2001, Journal of the American Chemical Society.

[41]  Y. Hayashi,et al.  Synthesis and Structure of a New Reduced Isopolyvanadate, [V17O42]4− , 2000 .

[42]  J. Gordon,et al.  Prolonged Phenotypic, Functional, and Molecular Change in Group I Burkitt Lymphoma Cells on Short-Term Exposure to CD40 Ligand , 1998 .

[43]  P. Gouzerh,et al.  Main-Group Element, Organic, and Organometallic Derivatives of Polyoxometalates. , 1998, Chemical reviews.

[44]  D. Katsoulis A Survey of Applications of Polyoxometalates. , 1998, Chemical reviews.

[45]  T. Yamase,et al.  Photo- and Electrochromism of Polyoxometalates and Related Materials. , 1998, Chemical reviews.

[46]  J. Devemy,et al.  AB INITIO MODELING OF THE ENDOHEDRAL REACTIVITY OF POLYOXOMETALLATES : 1. HOST-GUEST INTERACTIONS IN RCN(V12O32)4- (R = H, CH3, C6H5) , 1996 .

[47]  J. McCusker,et al.  Tetranuclear and Pentanuclear Vanadium(IV/V) Carboxylate Complexes: [V4O8(NO3)(O2CR)4]2- and [V5O9X(O2CR)4]2- (X = Cl-, Br-) Salts , 1996 .

[48]  Achim Müller,et al.  SUPRAMOLECULAR INORGANIC CHEMISTRY : SMALL GUESTS IN SMALL AND LARGE HOSTS , 1995 .

[49]  A. Müller,et al.  Modeling the Remote‐Controlled Organization of Particles in a Nanodimensional Cavity: Synthesis and Properties of (Et3NH)3(tBuNH3)2‐Na2[(H2O)2,N −3 ⊂ V14O22(OH)4(PhPO3)8]· 6H2O·2DMF , 1995 .

[50]  J. Zubieta,et al.  The Oxovanadium–Organophosphonate System: Complex Cluster Structures [(VO)6(tBuPO3)8Cl], [(VO)4{PhP(O)2OP(O)2Ph}4Cl]−, and [V18O25(H2O)2(PHPO3)20Cl4]4− with Encapsulated Chloride Anions Prepared from Simple Precursors† , 1994 .

[51]  J. Zubieta,et al.  The Oxovanadium–Organoarsonate System: [2CH3OH ⊂ V12O14(OH)4(PhAsO3)10]4− and [2H2O ⊂ V12O12(OH)2(H2O)2(PhAsO3)10− (PhAsO3H)4]2−, Clusters with Nanometer Dimensions and Cavities for Neutral Molecules , 1994 .

[52]  A. Müller,et al.  Control of the Linkage of Inorganic Fragments of VO Compounds: From Cluster Shells as Carcerands via Cluster Aggregates to Solid‐State Structures , 1993 .

[53]  J. Zubieta,et al.  (Organoarsonato)polyoxovanadium Clusters: Properties and Structures of the VV Cluster [V10O24(O3AsC6H4-4-NH2)3]4− and the VIV/VVCluster [H2{V6O10(O3AsC6H5)6}]2−† , 1992 .

[54]  A. Müller,et al.  A Novel Host/Guest System with a Nanometer Large Cavity for Anions and Cations: [2NH 4+, 2Cl− ⊂ V14O22(OH)4(H2O)2‐(C6H5PO3)8]6− , 1992 .

[55]  C. Hill,et al.  Tridecavanadate, [V13O34]3-, a new high-potential isopolyvanadate , 1992 .

[56]  M. T. Pope Anion guests in heteropolyanions? , 1992, Nature.

[57]  A. Müller,et al.  TEMPLATE-CONTROLLED FORMATION OF CLUSTER SHELLS OR A TYPE OF MOLECULAR RECOGNITION : SYNTHESIS OF HV22O54(CLO4)6- AND H2V18O44(N3)5- , 1991 .

[58]  A. Müller Induced molecule self-organization , 1991, Nature.

[59]  A. Müller,et al.  Formation of a Cluster Sheath around a Central Cluster by a “Self‐Organization Process”: the Mixed Valence Polyoxovanadate [V34O82]10⊖ , 1991 .

[60]  A. Müller,et al.  TOPOLOGICALLY INTERESTING CAGES FOR NEGATIVE-IONS WITH EXTREMELY HIGH COORDINATION-NUMBER - AN UNUSUAL PROPERTY OF V-O CLUSTERS , 1990 .

[61]  V. Day,et al.  Synthesis and Structure of the New Organometallic Polyoxovanadates, {[(η-C8H12)Ir]2(V4O12)}2− and [(η-C8H12)Ir(V4O12)]3− , 1990 .

[62]  O. Yaghi,et al.  Synthesis and characterization of a soluble oxide inclusion complex, [CH3CN.cntnd.(V12O324-)] , 1989 .

[63]  O. Yaghi,et al.  A new structure type in polyoxoanion chemistry: synthesis and structure of the V5O143− anion , 1989 .

[64]  A. Müller,et al.  [V19O41(OH)9]8⊖, An Ellipsoid‐Shaped Cluster Anion Belonging to the Unusual Family of VIV/VV Oxygen Clusters , 1988 .

[65]  E. O. Schlemper,et al.  Existence and structure of the molecular ion 18-vanadate(IV) , 1978 .

[66]  C. Lozzio,et al.  Human chronic myelogenous leukemia cell-line with positive Philadelphia chromosome. , 1975, Blood.

[67]  S. Aaronson,et al.  In vitro cultivation of human tumors: establishment of cell lines derived from a series of solid tumors. , 1973, Journal of the National Cancer Institute.

[68]  L. Berger,et al.  Low‐Temperature Magnetization of Cu(NO3)2·2.5H2O , 1969 .

[69]  H. T. Evans The molecular structure of the isopoly complex ion, decavanadate (V10O286-) , 1966 .

[70]  B. Hasenknopf,et al.  Polyoxometalates: introduction to a class of inorganic compounds and their biomedical applications. , 2005, Frontiers in bioscience : a journal and virtual library.

[71]  C. Hill,et al.  Pentadecavanadate, V15O429–, a new highly condensed fully oxidized isopolyvanadate with kinetic stability in water , 1993 .

[72]  A. Rheingold,et al.  A polyoxometalate incorporating an organoimido ligand: preparation and structure of [Mo5O18(MoNC6H4CH3)]2- , 1992 .

[73]  G. Christou,et al.  Synthesis of tetranuclear and pentanuclear vanadium-oxide-carboxylate aggregates , 1989 .