Inclusion compounds of cucurbit[8]uril with noble metal polyamine complexes

Коваленко, Е. А.; Mitkina, T. V.; Gerasko, О. А.; Naumov, D. Yu.; Samsonenko, Denis G.; Fedin, Vladimir P.

doi:10.1007/s11172-010-0357-z

Cited by 5 publications

(3 citation statements)

References 39 publications

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“…It is known that among CB[ n ] homologues the cavitand CB[7] is well‐soluble in water and as such it has been well studied. However, CB[8] and its higher homologues that have larger cavities are more often used in the synthesis of inclusion compounds with metal complexes, especially with polydentate ligands . It is for this reason that we chose CB[8] as one of the objects of this study.…”

Section: Introductionmentioning

confidence: 99%

“…These challenges can be addressed based on the use of quantum chemistry methods, which are a powerful tool that can provide detailed information on intricate molecular systems, as well as predict possible structures and properties of new compounds. Prior research has explored cucurbit[n]urils properties using both experimental and quantum‐chemical methods. So far, there have been relatively few publications devoted to quantum‐chemical studies of interactions between guest particles and cucurbiturils, in particular, those concerned with the modeling of the formation of the inclusion compounds .…”

Section: Introductionmentioning

confidence: 99%

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Formation of aqua and tetraammine Cu(II) complexes inside the cavities of cucurbit[6,8]urils: A DFT forecast

Masliy

Grishaeva

Kuznetsov

2018

Int J of Quantum Chemistry

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Results of DFT calculations of the structure and thermodynamics of formation of aqua and tetraammine Cu(II) complexes inside CB[n] (n = 6,8) are presented in this study. Formation thermodynamics of the complexes in the cavitands was evaluated by taking into account the most probable number of water molecules inside CB[n]. In this methodology, the complexation was first considered as a substitution reaction in which the guest complex displaces partially or completely the water molecules that are located inside the cavity. The water molecules present in the cavitand were shown to play an important role in the fixation of the guest complex inside the cavity due to the hydrogen bonds with the oxygen portals. The hydration of Cu(II) ion inside CB[6] leads to the formation of an inclusion compound with the formula {[Cu(H2O)4]2+·2H2O}@CB[6] while in CB[8] {[Cu(H2O)6]2+·4H2O}@CB[8] is formed. For the binding of tetraammine Cu(II) complex, CB[8] was determined to be a significantly more suitable “container” than CB[6]. Both a direct embedding of this complex into the CB[8] and another mechanism in which ammonia molecules replace the water molecules in the Cu(II) aqua complex, preexisting in CB[8] were determined to be thermodynamically possible. Both these lead to the formation of the resultant inclusion compound described by the formula {[Cu(NH3)4(H2O)2]2+·4H2O}@CB[8].

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Formation of aqua and tetraammine Cu(II) complexes inside the cavities of cucurbit[6,8]urils: A DFT forecast

Masliy

Grishaeva

Kuznetsov

2018

Int J of Quantum Chemistry

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“…[9][10][11][12][13] Interest in complexes with cyclam (1,4,8,11 tetraaza cyclotetradecane) and its derivatives is caused by their wide use in medicine, for instance, as antiviral drugs. 14- 16 To the present time, the inclusion compounds in CB [8] of the nickel(II), 17 iron(II), 18 palladium(II), 19 platinum(II), 20 and copper(II) 21 complexes with cyclam have been syn thesized and structurally characterized. In the structures of these compounds, the complex lies in the cavity of the cavitand molecule, while cyclam, except for the copper(II) complex, takes the most stable configuration trans III (of five theoretically possible trans configurations differed in the configuration of the nitrogen atoms ( Fig.…”

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confidence: 99%

Inclusion compounds of the copper(ii) and zinc(ii) complexes with cyclam in cucurbit[8]uril: synthesis and structure

et al. 2011

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Inclusion compounds of the macrocyclic cavitand cucurbit[8]uril (CB[8], С 48 H 48 N 32 O 16 ) with the copper(II) and zinc(II) complexes with the tetraazamacrocyclic ligand cyclam, {[Cu(cyclam)(H 2 O) 2 ]@CB[8]}Cl 2 •18H 2 O (1) and {[Zn(cyclam)]@CB[8]}Cl 2 •13H 2 O (2), were synthesized. The compounds were characterized by X ray diffraction analysis, electrospray mass spectrometry, IR spectroscopy, and elemental analysis. The 1 H and 13 C NMR method revealed only one trans isomer of the zinc(II) complex with cyclam in an aqueous solution of inclusion compound 2.

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Mass Spectrometry of Organogold Compounds

O’Hair

2015

Patai's Chemistry of Functional Groups

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The use of mass spectrometry (MS) based methods in organogold chemistry is reviewed. The focus is on both fundamental gas‐phase ion chemistry studies in which the mass spectrometer is used as a “gas‐phase reactor” and the analytical applications of mass spectrometry. For the former, the topics covered include: thermochemical measurements (bond energies from reactions of Au + with substrates and Au + and R 3 PAu + affinities); photoelectron, IR and UV‐Vis spectroscopy; ion‐molecule reactions of bare Au + , ligated Au(L) n + , Au − and gold clusters with substrates; formation and reactions of organogold ions. The latter includes a discussion on: the use of different ionization methods (electron ionization, fast‐atom bombardment, electrospray ionization and matrix assisted laser desorption ionization) in the analysis of gold compounds; the use of MS in the bioinorganic chemistry of gold; MS‐based studies of relevance to catalysis.

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Inclusion compounds of cucurbit[8]uril with noble metal polyamine complexes

Cited by 5 publications

References 39 publications

Formation of aqua and tetraammine Cu(II) complexes inside the cavities of cucurbit[6,8]urils: A DFT forecast

Formation of aqua and tetraammine Cu(II) complexes inside the cavities of cucurbit[6,8]urils: A DFT forecast

Inclusion compounds of the copper(ii) and zinc(ii) complexes with cyclam in cucurbit[8]uril: synthesis and structure

Mass Spectrometry of Organogold Compounds

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