J
Jon Zubieta
Researcher at Syracuse University
Publications - 822
Citations - 29673
Jon Zubieta is an academic researcher from Syracuse University. The author has contributed to research in topics: Crystal structure & Ligand. The author has an hindex of 79, co-authored 820 publications receiving 29114 citations. Previous affiliations of Jon Zubieta include University of Sussex & North Carolina State University.
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Journal ArticleDOI
Organic-Inorganic Hybrid Materials: From "Simple" Coordination Polymers to Organodiamine-Templated Molybdenum Oxides.
TL;DR: A blueprint for the design of oxide materials is provided by nature and members of the ever-expanding class of polymeric coordination complex cations, novel molybdenum oxide substructures, such as the one shown, may be prepared.
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Reversible reaction of O2 (and CO) with a copper(I) complex. X-ray structures of relevant mononuclear Cu(I) precursor adducts and the trans-(μ-1,2-peroxo)dicopper(II) product
Zoltan Tyeklar,Zoltan Tyeklar,Richard R. Jacobson,Richard R. Jacobson,Ning Wei,Ning Wei,Narasappa Narasimha Murthy,Narasappa Narasimha Murthy,Jon Zubieta,Kenneth D. Karlin,Kenneth D. Karlin +10 more
TL;DR: Reactions of O 2 (and CO) with a mononuclear copper(I) complex containing a tripodal tetradentate ligand L (tris(2-pyridylmethyl)amine)amine are described.
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Composite Solids Constructed From One-Dimensional Coordination Polymer Matrices and Molybdenum Oxide Subunits: Polyoxomolybdate Clusters within [{Cu(4,4′-bpy)}4Mo8O26] and [{Ni(H2O)2(4,4′-bpy)2}2Mo8O26] and One-Dimensional Oxide Chains in [{Cu(4,4′-bpy)}4Mo15O47]·8H2O
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Solid-State Coordination Chemistry: The Self-Assembly of Microporous Organic–Inorganic Hybrid Frameworks Constructed from Tetrapyridylporphyrin and Bimetallic Oxide Chains or Oxide Clusters
TL;DR: The hydrothermal reactions of MoO(3), tetrapyridylporphyrin (tpypor), water, and the appropriate M(II) precursor yield the first examples of three-dimensional framework materials constructed from metal oxide and porphyrin subunits.
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An Inorganic Double Helix: Hydrothermal Synthesis, Structure, and Magnetism of Chiral [(CH3)2NH2]K4[V10O10(H2O)2(OH)4(PO4)7]·4H2O
TL;DR: Very complicated inorganic solids can be self-assembled from structurally simple precursors as illustrated by the hydrothermal synthesis of the vanadium phosphate, which contains chiral double helices formed from interpenetrating spirals of vanadium oxo pentamers bonded together by P(5+) as discussed by the authors.