A rare all-Mn2+ decametallic cage from distorted face-sharing cubes
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[1] G. Christou,et al. 1,1,1-Tris(hydroxymethyl)propane in manganese carboxylate chemistry: synthesis, structure and magnetic properties of a mixed-valence [MnIII4MnII4] cluster featuring the novel [MnIII4MnII4(mu3-OR)6(mu2-OR)8]6+ core. , 2006, Dalton transactions.
[2] A. Tasiopoulos,et al. Enneanuclear Ni(II) complexes from the use of the flexible ligand 2-pyridinealdoxime: The nature of the inorganic anion does not affect the chemical and structural identity of the cationic cluster , 2006 .
[3] E. McInnes,et al. A rare mixed-valence state manganese(II/IV) tetranuclear cage formed using phenyl 2-pyridyl ketone oxime and azide as ligands , 2006 .
[4] G. Aromí,et al. Synthesis of 3d metallic single-molecule magnets , 2006 .
[5] W. Wernsdorfer,et al. The first high oxidation state manganese-calcium cluster: relevance to the water oxidizing complex of photosynthesis. , 2005, Chemical communications.
[6] G. Christou. Single-Molecule Magnets: A Molecular Approach to Nanoscale Magnetic Materials , 2005 .
[7] T. Weyhermüller,et al. A magnetostructural study of linear NiII MnIII NiII, NiII CrIII NiII and triangular Ni(II)3 species containing (pyridine-2-aldoximato)nickel(II) unit as a building block. , 2005, Dalton transactions.
[8] R. Clérac,et al. Linear trinuclear manganese(II) complexes: crystal structures and magnetic properties , 2005 .
[9] J. Long,et al. Directed assembly of metal-cyanide cluster magnets. , 2005, Accounts of chemical research.
[10] A. Terzis,et al. Di-2-pyridyl ketone oxime [(py)2CNOH] in manganese carboxylate chemistry: mononuclear, dinuclear and tetranuclear complexes, and partial transformation of (py)2CNOH to the gem-diolate(2-) derivative of di-2-pyridyl ketone leading to the formation of NO3-. , 2005, Dalton transactions.
[11] A. Harrison,et al. Synthesis and studies of a trinuclear Mn(II) carboxylate complex. , 2004, Dalton transactions.
[12] A. Terzis,et al. Phenyl 2‐Pyridyl Ketone and Its Oxime in Manganese Carboxylate Chemistry: Synthesis, Characterisation, X‐ray Studies and Magnetic Properties of Mononuclear, Trinuclear and Octanuclear Complexes , 2004 .
[13] Hongyu Chen,et al. Dimer-of-dimers model for the oxygen-evolving complex of photosystem II. Synthesis and properties of [MnIV4O5(terpy)4(H2O)2](ClO4)6. , 2004, Journal of the American Chemical Society.
[14] James Barber,et al. Architecture of the Photosynthetic Oxygen-Evolving Center , 2004, Science.
[15] A. Terzis,et al. 2-Pyridinealdoxime [(py)CHNOH] in manganese(II) carboxylate chemistry: mononuclear, dinuclear, tetranuclear and polymeric complexes, and partial transformation of (py)CHNOH to picolinate(-1) , 2004 .
[16] F. Lloret,et al. Hexanuclear manganese(III) single-molecule magnets. , 2004, Angewandte Chemie.
[17] M. Yamashita,et al. [Mn2(saltmen)2Ni(pao)2(L)2](A)2 with L=pyridine, 4-picoline, 4-tert-butylpyridine, N-methylimidazole and A=ClO4-, BF4-, PF6-, ReO4-: a family of single-chain magnets. , 2003, Inorganic chemistry.
[18] A. Terzis,et al. Di-2-pyridyl ketone oxime in 3d-metal carboxylate cluster chemistry: a new family of mixed-valence Mn2IIMn2III complexes , 2003 .
[19] J. Marrot,et al. Hexacyanometalate molecular chemistry: di-, tri-, tetra-, hexa- and heptanuclear heterobimetallic complexes; control of nuclearity and structural anisotropy. , 2003, Chemistry.
[20] F. Gonnet,et al. Hexacyanometalate molecular chemistry: heptanuclear heterobimetallic complexes; control of the ground spin state. , 2003, Chemistry.
[21] A. Terzis,et al. Octanuclearity and tetradecanuclearity in manganese chemistry: an octanuclear manganese(II)/(III) complex featuring the novel [Mn8(mu4-O)2(mu3-OH)2]14+ core and [Mn10(II)Mn4(III)O4(O2CMe)20[(2-py)2C(OH)O]4] (2-py = 2-pyridyl). , 2003, Chemical communications.
[22] M. Pink,et al. Preparation and properties of [NH2Et2][Mn10(OH)3(phth)9(bpy)6], a new decanuclear Mn(II) compound with a variety of phthalate binding modes , 2003 .
[23] R. Sessoli,et al. Quantum tunneling of magnetization and related phenomena in molecular materials. , 2003, Angewandte Chemie.
[24] M. Yamashita,et al. Evidence for single-chain magnet behavior in a Mn(III)-Ni(II) chain designed with high spin magnetic units: a route to high temperature metastable magnets. , 2002, Journal of the American Chemical Society.
[25] R. Winpenny. Serendipitous assembly of polynuclear cage compounds , 2002 .
[26] A. Pombeiro,et al. Zinc(II)/ketoxime system as a simple and efficient catalyst for hydrolysis of organonitriles. , 2002, Inorganic chemistry.
[27] Giannis S. Papaefstathiou,et al. Families of Polynuclear Manganese, Cobalt, Nickel and Copper Complexes Stabilized by Various Forms of Di-2-pyridyl Ketone , 2002 .
[28] M. J. Baldwin,et al. Structural and spectroscopic studies of the versatile coordination chemistry of the chiral ligand N,N-bis(1-propan-2-onyl oxime)-L-methionine N'-methylamide with Ni(II) and Zn(II). , 2001, Inorganic chemistry.
[29] T. Spiller,et al. Magnetic Qubits as Hardware for Quantum Computers , 2000, cond-mat/0009432.
[30] L. Spiccia,et al. Structure and magnetic properties of a high-spin Mn6IICrIII cluster containing cyano bridges and Mn centres capped by pentadentate ligands , 2001 .
[31] G. Dismukes,et al. An evaluation of structural models for the photosynthetic water-oxidizing complex derived from spectroscopic and X-ray diffraction signatures , 2001, JBIC Journal of Biological Inorganic Chemistry.
[32] D. Gatteschi. Single-molecule Magnets , 2000 .
[33] D. Kessissoglou. HOMO- AND MIXED-VALENCE EPR-ACTIVE TRINUCLEAR MANGANESE COMPLEXES , 1999 .
[34] D. Collison,et al. Surface coordination chemistry: corrosion inhibition by tetranuclear cluster formation of iron with salicylaldoxime. , 1999, Angewandte Chemie.
[35] W. Wernsdorfer,et al. Quantum phase interference and parity effects in magnetic molecular clusters , 1999, Science.
[36] S. Alvarez,et al. Theoretical search for new ferromagnetically coupled transition metal complexes , 1998 .
[37] G. Christou,et al. Tetranuclear and Octanuclear Manganese Carboxylate Clusters: Preparation and Reactivity of (NBu(n)(4))[Mn(4)O(2)(O(2)CPh)(9)(H(2)O)] and Synthesis of (NBu(n)(4))(2)[Mn(8)O(4)(O(2)CPh)(12)(Et(2)mal)(2)(H(2)O)(2)] with a "Linked-Butterfly" Structure. , 1996, Inorganic chemistry.
[38] P. Stamp. Tunnelling secrets extracted , 1996, Nature.
[39] H. Thorp,et al. Bond valence sum analysis of metal-ligand bond lengths in metalloenzymes and model complexes. 2. Refined distances and other enzymes , 1993 .
[40] J. Szymanowski. Hydroxyoximes and Copper Hydrometallurgy , 1993 .
[41] H. Thorp. Bond valence sum analysis of metal-ligand bond lengths in metalloenzymes and model complexes , 1992 .
[42] V. Pecoraro. Manganese redox enzymes , 1992 .
[43] M. Chan,et al. Support for a dimer of di-.mu.-oxo dimers model for the photosystem II manganese aggregate. Synthesis and properties of [(Mn2O2)2(tphpn)2](ClO4)4 , 1991 .
[44] S. E. Vitols,et al. Structure of the linear trinuclear complex hexakis(acetato)bis(2,2'-bipyridine)trimanganese (II). Determination of the J electron-exchange parameter through magnetic susceptibility and high-field magnetization measurements , 1991 .
[45] G. Christou. Manganese carboxylate chemistry and its biological relevance , 1989 .
[46] Glen B. Deacon,et al. Relationships between the carbon-oxygen stretching frequencies of carboxylato complexes and the type of carboxylate coordination , 1980 .
[47] K. Nakamoto. Infrared and Raman Spectra of Inorganic and Coordination Compounds , 1978 .
[48] D. W. Phelps,et al. Metal-metal interactions in linear chains. The structure and characterization of bis(pyridine-2-carboxaldoximinato)platinum(II) dihydrate , 1976 .