Search results for "Bromide"

showing 10 items of 591 documents

Crystal structure and Hirshfeld surface analysis of (E)-3-[(4-fluorobenzylidene)amino]-5-phenylthiazolidin-2-iminium bromide

2019

TARAMAPUBMED TARAMASCOPUS TARAMAWOS In the cation of the title salt, C16H15FN3S+·Br−, the phenyl ring is disordered over two sets of sites with a refined occupancy ratio of 0.503 (4):0.497 (4). The mean plane of the thiazolidine ring makes dihedral angles of 13.51 (14), 48.6 (3) and 76.5 (3)° with the fluorophenyl ring and the major- and minor-disorder components of the phenyl ring, respectively. The central thiazolidine ring adopts an envelope conformation. In the crystal, centrosymmetrically related cations and anions are linked into dimeric units via N—H...Br hydrogen bonds, which are further connected by weak C—H...Br hydrogen bonds into chains parallel to [110]. Hirshfeld surface an…

crystal structureStackingCrystal structure010402 general chemistryRing (chemistry)01 natural sciencesCrystalHirshfeld surface analysis.chemistry.chemical_compoundBromideThiazolidine ringcharge assisted hydrogen bondingHirshfeld surface analysisGeneral Materials ScienceBenzeneCrystallography010405 organic chemistryHydrogen bondIminiumdisorderGeneral ChemistryCondensed Matter::Mesoscopic Systems and Quantum Hall EffectCondensed Matter Physics0104 chemical sciencesCrystallographychemistryQD901-999thiazolidine ringActa Crystallographica Section E Crystallographic Communications

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Stabilisation of Exotic Tribromide (Br3−) Anions via Supramolecular Interaction with A Tosylated Macrocyclic Pyridinophane. A Serendipitous Case.

2020

Tetraaza-macrocyclic pyridinophane L-Ts, decorated with a p-toluenesulfonyl (tosyl

crystal structureStackingSupramolecular chemistryPharmaceutical ScienceCrystal structureAnalytical Chemistrylcsh:QD241-441symbols.namesakechemistry.chemical_compoundlcsh:Organic chemistryTosylDrug DiscoveryPyridineHirshfeld surface analysisPhysical and Theoretical ChemistryN-heterocyclesanion- interactionsTribromideHydrogen bondOrganic Chemistryanion complexesCrystallographychemistryChemistry (miscellaneous)symbolsMolecular Medicinevan der Waals forceMolecules

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Unexpected behaviour of copper(I) towards a tridentate Schiff base: Synthesis, structure and properties of new Cu(I)-Cu(II) and Cu(II) complexes

2001

cited By 17; International audience; The reaction of CuBr with 2,6-bis[1-(2,6-diisopropylphenylimino)ethyl]pyridine L afforded a new Cu(I)-Cu(II) derivative [CuBrL]2[Cu2Br4] (1), while the reaction of [Cu(CH3CN)4]PF6 with L in THF yielded the new Cu(I) compound CuL(THF)(CH3CN)PF6 (2). Derivative 2 further reacted with halogenated solvents to yield halogeno-Cu(II) salts, [CuClL]PF6 (3) using CHCl3 and [CuBrL]Br3 (4) using CHBr3. Compounds 1, 3 and 4 have been fully characterised by X-ray crystallography; they contain essentially similar [CuXL]+ cations with a square planar copper(II) co-ordination. However, the structure of compound 1 must be viewed as built of tetranuclear units since two […

crystal structurespectroscopysynthesisStereochemistry2chemistry.chemical_elementcyclic potentiometrypyridine derivativeCrystal structure010402 general chemistryElectrochemistry01 natural sciencesMedicinal chemistrysolventIonInorganic Chemistrychemistry.chemical_compoundSchiff basecopper derivativehalogenationPyridineMaterials Chemistry[CHIM]Chemical SciencesPhysical and Theoretical Chemistrychemical bondSchiff base010405 organic chemistryChemistry6 bis[2chemical interactionarticleanionX ray crystallographyCopperstructure analysis0104 chemical sciencescationunclassified drug6 diisopropylphenylimino)ethyl]pyridineelectrochemistryYield (chemistry)magnetismDerivative (chemistry)copper bromide

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Poly[1-ethyl-3-methylimidazolium [tri-μ-isothiocyanato-manganate(II)]]

2019

The title compound, {(C9H11N2)[Mn(NCS)3]} n , has been obtained as a side product of the salt metathesis reaction of 1-ethyl-3-methylimidazolium bromide, (EMIm)Br, and K2[Mn(NCS)4]. The structure consists of discrete 1-ethyl-3-methylimidazolium cations and an anionic two-dimensional network of manganese(II)-based complex anions, interconnected by thiocyanate ions. Every Mn2+ ion is coordinated by three S atoms of three NCS− ions and three N atoms of further three NCS− ions in a meridional octahedral fashion.

crystal structurethiocyanateThiocyanateManganatechemistry.chemical_elementThio-02 engineering and technologyCrystal structureManganese010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesMedicinal chemistry0104 chemical scienceschemistry.chemical_compoundnetwork structurechemistryBromideIonic liquidmanganeselcsh:QD901-999Salt metathesis reactionlcsh:Crystallography0210 nano-technologyionic liquidIUCrData

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Using exomarkers to assess mitochondrial reactive species in vivo

2014

Background:\ud The ability to measure the concentrations of small damaging and signalling molecules such as reactive oxygen species (ROS) in vivo is essential to understanding their biological roles. While a range of methods can be applied to in vitro systems, measuring the levels and relative changes in reactive species in vivo is challenging.\ud \ud Scope of review:\ud One approach towards achieving this goal is the use of exomarkers. In this, exogenous probe compounds are administered to the intact organism and are then transformed by the reactive molecules in vivo to produce a diagnostic exomarker. The exomarker and the precursor probe can be analysed ex vivo to infer the identity and a…

green fluorescent proteinMitochondrionMitoPmedicine.disease_causeBiochemistryTPMPMicemethyltriphenylphosphoniumMitoBchemistry.chemical_classification02 Physical SciencesbiologyROSsuperoxide dismutaseMitochondriaelectron paramagnetic resonanceBiochemistryBiological MarkersMolecular probe3-(dihydroxyboronyl)benzyltriphenylphosphonium bromideBiochemistry & Molecular BiologyBiophysicsGFPModels BiologicalTPPSuperoxide dismutaseIn vivoOxidative damagemedicineAnimalsSOD4-HNEMolecular BiologyExomarkerReactive oxygen species(3-hydroxybenzyl)triphenylphosphonium bromideMass spectrometry0601 Biochemistry And Cell Biology06 Biological Sciences4-hydroxynonenalIn vitroOxidative StresschemistryMolecular Probesbiology.proteinEPRtriphenylphosphonium cationReactive oxygen speciesEx vivoOxidative stressBiomarkersBiochimica et Biophysica Acta (BBA) - General Subjects

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Halogen Bonds in Square Planar 2,5-Dihalopyridine-Copper(II) Bromide Complexes

2018

halogeenitintermolecular interactions010405 organic chemistryIntermolecular forcestructure elucidationchemistry.chemical_elementkuparikompleksiyhdisteet010402 general chemistry01 natural sciencesCopper0104 chemical sciencesInorganic ChemistryCopper(II) bromidechemistry.chemical_compoundCrystallographyPlanarchemistrycopperHalogenhalogensSquare (unit)bromiditta116European Journal of Inorganic Chemistry

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Tetraiodoethynyl resorcinarene cavitands as multivalent halogen bond donors

2014

The first examples of iodoethynyl resorcinarene cavitands as rigid 3D halogen bond (XB) donor molecules are presented. These concave macrocycles form strong, RXB = 0.78–0.83, halogen bonds with dioxane oxygen, pyridine nitrogen and a bromide anion in tetraproropyl ammonium bromide resulting in deep cavity cavitand structures.

inorganic chemicalsHalogen bondChemistryMetals and Alloyschemistry.chemical_elementGeneral ChemistryResorcinarenePhotochemistryOxygenNitrogenCatalysis3. Good healthSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialschemistry.chemical_compoundBromidePolymer chemistryHalogenMaterials ChemistryCeramics and Compositesta116Chemical communications

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Phosphororganische Verbindungen, 68. Darstellung und Eigenschaften von Tetrakis(diphenylphosphin)‐nickel(0)

1971

Die Titelsubstanz 1 wurde durch Einwirkung von Diphenylphosphin auf Bis-π-allyl-nickel, Tetrakis(triphenylphosphin)-nickel(0) (2), Nickelpulver oder Nickel(II)-bromid dargestellt. Ihre Struktur wurde durch Zerewitinoff-Bestimmung, IR- und NMR-Spektren abgesichert. Eine Alkylierung von metalliertem 1 gelang nicht. Organic Phosphorus Compounds, 68. Preparation and Properties of Tetrakis(diphenylphosphine)nickel(0) The title compound, 1, was prepared by reacting of diphenylphosphine with bis(π-allyl)nickel, tetrakis(triphenylphosphine)nickel(0) (2), nickel-powder, or nickel(II) bromide. The structure of 1 was elucidated by Zerewitinoff method, i. r. and n. m. r. spectra. The alkylation of meta…

inorganic chemicalsInorganic Chemistrychemistry.chemical_compoundNickelDiphenylphosphinechemistryBromidePolymer chemistryotorhinolaryngologic diseasesOrganic phosphoruschemistry.chemical_elementAlkylationTriphenylphosphineChemische Berichte

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Tailoring polymers through interplay of ligands within precatalysts: 8-(Nitro/benzhydryl-arylimino)-7,7-dimethyl-5,6-dihydroquinolylnickel halides in…

2017

A series of 8-(nitro/benzhydryl-substituted arylimino)-7,7-dimethyl-5,6-dihydroquinolines and the corresponding nickel halide complexes were synthesized and characterized. Molecular structures of representative nickel complexes were determined by single crystal X-ray diffraction, showing the dinuclear dimers with distorted square-pyramidal geometry around the nickel center. The binding energies determined by X-ray photoelectron spectroscopy (XPS) indicate the effective coordination between the sp2-nitrogen and nickel atoms as well as the influence of both the halogen ligands and the substituents within dihydroquinolines on the strength of the NiN bond. Ethylene polymerization with the nicke…

inorganic chemicalsPolymers and PlasticsMethylaluminoxaneSubstituentHalidechemistry.chemical_element010402 general chemistry01 natural sciencesvinylene groupnickelchemistry.chemical_compoundBromideVinylene groupPolymer chemistryMaterials ChemistryOrganic chemistrynitro substituent010405 organic chemistryChemistryLigandOrganic Chemistryhomogeneous catalysis0104 chemical sciencesNickelPolymerizationpolymerization

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Halogen bonding and host–guest chemistry between N-alkylammonium resorcinarene halides, diiodoperfluorobutane and neutral guests

2019

Single crystal X-ray structures of halogen-bonded assemblies formed between host N-hexylammonium resorcinarene bromide (1) or N-cyclohexylammonium resorcinarene chloride (2), and 1,4-diiodooctafluorobutane and accompanying small solvent guests (methanol, acetonitrile and water) are presented. The guests’ inclusion affects the geometry of the cavity of the receptors 1 and 2, while the divalent halogen bond donor 1,4-diiodooctafluorobutane determines the overall nature of the halogen bond assembly. The crystal lattice of 1 contains two structurally different dimeric assemblies A and B, formally resulting in the mixture of a capsular dimer and a dimeric pseudo-capsule. 1H and 19F NMR analyses …

inorganic chemicalscapsuleDimerHalideFluorine-19 NMRCrystal structurelcsh:QD241-441kemialliset sidoksetchemistry.chemical_compoundlcsh:Organic chemistryBromidesupramolekulaarinen kemiahost-guest chemistryhost–guest chemistrylcsh:ScienceHost–guest chemistryta116Biochemistry Biophysics and Structural BiologyX-ray crystallographyresorcinarene saltsHalogen bondChemistryOrganic ChemistryResorcinareneChemistryCrystallographyhalogen bondinglcsh:Qröntgenkristallografiadimeric assembliesBeilstein Journal of Organic Chemistry

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