V
Victor Ch. Kravtsov
Researcher at Academy of Sciences of Moldova
Publications - 148
Citations - 4490
Victor Ch. Kravtsov is an academic researcher from Academy of Sciences of Moldova. The author has contributed to research in topics: Crystal structure & Coordination complex. The author has an hindex of 29, co-authored 138 publications receiving 4217 citations. Previous affiliations of Victor Ch. Kravtsov include ODESSA & Brown University.
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Molecular building blocks approach to the assembly of zeolite-like metal–organic frameworks (ZMOFs) with extra-large cavities
TL;DR: Two novel porous anionic zeolite-like metal-organic frameworks have been synthesized by metal-ligand-directed assembly of rigid and directional tetrahedral building units, InN4 synthesized in situ, and doubly deprotonated bis(bidentate) imidazoledicarboxylic acid ligands (HImDC) in the presence of different structure directing agents (SDAs).
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Supramolecular isomerism in coordination compounds: Nanoscale molecular hexagons and chains
TL;DR: A nanoscale supramolecular hexagon is prepared from self-assembly of 5-NO2-bdc and Cu(II) cations and has outer and inner diameters of 3.1 and 0.8 nm.
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Supermolecular Building Blocks (SBBs) and Crystal Design : 12-Connected Open Frameworks Based on a Molecular Cubohemioctahedron
Amy J. Cairns,Jason A. Perman,Lukasz Wojtas,Victor Ch. Kravtsov,Mohamed H. Alkordi,Mohamed Eddaoudi,Michael J. Zaworotko +6 more
TL;DR: The cubohemioctahedral supermolecular building blocks, SBBs, of formula [M6(bdc)12]12- (M = Ni, Co) have the requisite symmetry to be cross-linked by rigid tetracarboxylato ligands in such a manner that 12-connected fcu nets with nanoscale features are generated.
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Template-Directed Assembly of Zeolite-like Metal–Organic Frameworks (ZMOFs): A usf-ZMOF with an Unprecedented Zeolite Topology†
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Bottom up synthesis that does not start at the bottom: quadruple covalent cross-linking of nanoscale faceted polyhedra.
TL;DR: A novel 3D metal−organic coordination polymer constructed from hollow, spherical, nanometer-sized molecular faceted polyhedra and a flexible tetracarboxylate ligand designed to simultaneously assemble and cross-link these nanoballs in situ has been synthesized and structurally characterized.