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Topological Motifs in Cyanometallates: From Building Units to Three-Periodic FrameworksProgress in Polyarsolyl ChemistryCoordination-induced condensation of [Ta6O19](8-): synthesis and structure of [{(C6H6)Ru}2Ta6O19](4-) and [{(C6H6)RuTa6O18}2(μ-O)](10-).A cyclo-P6 Ligand Complex for the Formation of Planar 2D Layers.Supramolecular Synthons: Will Giant Rigid Superspheres Do?1,2,4-Triphospholyl anions - versatile building blocks for the formation of 1D, 2D and 3D assemblies.Giant Rugby Ball [{Cp(Bn)Fe(η(5)-P5)}24Cu96Br96] Derived from Pentaphosphaferrocene and CuBr2.A nano-sized supramolecule beyond the fullerene topology.Strategies for the Construction of Supramolecular Dimers versus Homoleptic 1D Coordination Polymers Starting from the Diphosphorus [Cp2Mo2(CO)4(η2-P2)] Complex and Silver(I) Salts.The First Coordination Polymers Based on 1,3-Diphosphaferrocenes and 1,1',2,3',4-Pentaphosphaferrocenes.Giant Spherical Cluster with I-C140 Fullerene Topologycyclo-P4 Building Blocks: Achieving Non-Classical Fullerene Topology and Beyond.Novel Two- and Three-Dimensional Organometallic-Organic Hybrid Materials Based on Polyphosphorus Complexes.Tunable porosities and shapes of fullerene-like spheres.Redox and Coordination Behavior of the Hexaphosphabenzene Ligand in [(Cp*Mo)2 (μ,η(6) :η(6) -P6 )] Towards the "Naked" Cations Cu(+) , Ag(+) , and Tl(.).Structures and properties of spherical 90-vertex fullerene-like nanoballs.An Icosidodecahedral Supramolecule Based on Pentaphosphaferrocene: From a Disordered Average Structure to Individual Isomers.Ferrocene and pentaphosphaferrocene: a comparative study regarding redox chemistry.Structure-forming components in crystals of ternary and quaternary 3d-metal complex fluorides.[[Ba2(C2O4)(H2O)6](NCS)2]n: a layered mixed-anion barium oxalate.Inclusion of a nitronyl nitroxyl radical and its hydrochloride in cucurbit[8]uril.Stabilization of tetrahedral P₄ and As₄ molecules as guests in polymeric and spherical environments.Chemistry of bridging phosphanes: a comparative study within Cu(I)-Ag(I)-Au(I) triad-based homonuclear dimers.Three differently coloured concomitant polymorphs: synthesis, structure and packing analysis of (4-(3',5'-dimethyl-1H-pyrazol-1'-yl)-6-methyl-2-phenylpyrimidine)dichlorocopper(II).Size-determining dependencies in supramolecular organometallic host-guest chemistry.Neutral two-dimensional organometallic-organic hybrid polymers based on pentaphosphaferrocene, bipyridyl linkers and CuCl.Anionic Hosts for the Incorporation of Cationic Guests.Arsenic-Rich Polyarsenides Stabilized by Cp*Fe Fragments.Coordination Behavior of [Cp''2 Zr(η1:1 -P4 )] towards Different Lewis Acids.Different Reactivity of As4 towards Disilenes and Silylenes.Triple-decker sandwich complexes with a bent cyclo-P5 middle-deck.Transfer Reagent for Bonding Isomers of Iron Complexes.Discrete and extended supersandwich structures based on weak interactions between phosphorus and mercury.Highly luminescent complexes [Mo6X8(n-C3F7COO)6]2- (X=Br, I).Synthesis and structure of Ta4S9Br8. An emergent family of early transition metal chalcogenide clusters.Facile synthesis of one-dimensional organometallic-organic hybrid polymers based on a diphosphorus complex and flexible bipyridyl linkers.Unexpected Reactivity of [(η(5) -1,2,4-tBu3 C5 H2 )Ni(η(3) -P3 )] towards Main Group Nucleophiles and by Reduction.Complexes of monocationic Group 13 elements with pentaphospha- and pentaarsaferroceneCoordination polymers based on [Cp*Fe(η5-P5)]: solid-state structure and MAS NMR studiesOne-dimensional polymers based on silver(I) cations and organometallic cyclo-P3 ligand complexes
P50
Q26778545-784F7148-F7A9-4F7A-BE35-A1F59FF40F40Q28822423-F244D9F2-9F79-40E5-B8BF-E246087F0E2CQ30874085-4D345256-E96D-4990-B677-8C7DFD3BCB4CQ38585807-57CFC585-52B3-4F17-A2F8-6B1B1B5E7D20Q40018785-F1D82BEC-EC7D-488F-B8D5-5647BD11B2C1Q41231282-85139101-4B2C-4D78-8A00-CB8680CA9DAEQ41346366-A6289881-09C5-44BE-B77F-8127C65065F1Q41484145-845337AA-ECBD-4F1D-98E9-2560194EBA47Q41626680-ACA874FC-4EF3-4D13-AFF8-07248AE6C069Q41909320-89810AE5-8EAC-4CC5-B7B6-7C771042805BQ42231267-9DF1D725-D99A-472E-8703-8B2EF8066480Q42361309-80F47924-E321-48A0-85FD-D6F0569F23EAQ42376989-C1486C5F-C02A-4A7D-9A59-E8D37FEF7F47Q42519988-E9483750-635B-4578-937D-91CAAD12A444Q43136099-ABB1501C-6AD4-470A-A542-B29D3B9FF3F3Q43193422-6CA3EA2D-944D-4D14-8C22-459ABD90B02FQ43203943-6DD6FCEE-7A3A-46AB-A06E-8D6B32AE175CQ43531717-E9C818D7-D543-4EBE-A757-7798B1AF47A4Q44449992-0F3E2854-C406-43C3-B765-60DB83361792Q44966299-1549C8D7-5758-4FBD-A050-B378AE0F5413Q45567440-0AB41E93-690A-4563-8BB0-94D3AD486659Q45747788-D90C0EC3-83B8-423D-A808-5A8F1B6A4F99Q46072112-C9616306-9105-4361-95F5-CCFD6722871AQ46384666-4A1680DF-E18F-46D0-B3EB-5BD085E28A2AQ47338001-6EA7520C-CD3E-445D-8794-C9E1C7FF86F0Q48089926-5EBEA043-1D34-438F-AC97-D738D9E4D6ECQ48125139-81C67F73-D813-42A2-9B16-1B5E210C8B7CQ48139553-834C4A41-6EBC-49BA-8A13-DA3046DEB400Q48159044-DFD2A9F1-1AD9-44AD-AAAF-CD5357DBED9DQ48193075-82BB7896-F9E9-4445-A081-2A6758A77D5CQ48313008-CED9781A-90FE-4657-A0EA-4A287E96BD0BQ48315783-99B9BF19-419C-4FBF-B830-2329EFD7BA0FQ50491273-887FB451-F9E9-40E5-BAD2-B4E190030BBCQ50536054-1534D818-8E5E-47D1-8381-0F3508AA69DEQ50749059-A7273CC4-733B-43B3-B605-C52381F5BFC8Q52988292-0ED26E43-C98B-449A-BDB2-8FFA29DA7B2BQ53616865-71822DC3-2AD2-4FCE-8871-58C33EC3B4C0Q57096035-74F90715-FBAF-4B7E-873C-60C12EB408DFQ57096035-A243258D-93F5-4ED7-BBBC-CB3218C2E457Q57096758-B004E71F-66D8-4EBF-8D67-3B0DC96E6695
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
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name
Eugenia V. Peresypkina
@ast
Eugenia V. Peresypkina
@en
Eugenia V. Peresypkina
@es
Eugenia V. Peresypkina
@sl
type
label
Eugenia V. Peresypkina
@ast
Eugenia V. Peresypkina
@en
Eugenia V. Peresypkina
@es
Eugenia V. Peresypkina
@sl
prefLabel
Eugenia V. Peresypkina
@ast
Eugenia V. Peresypkina
@en
Eugenia V. Peresypkina
@es
Eugenia V. Peresypkina
@sl
P106
P1153
6603215567
P21
P31
P496
0000-0002-9870-9928