Search results for " Structure"

showing 10 items of 25475 documents

CCDC 927862: Experimental Crystal Structure Determination

2013

Related Article: Walter Cañon-Mancisidor, Carlos J. Gómez-García, Guillermo Mínguez Espallargas, Andres Vega, Evgenia Spodine, Diego Venegas-Yazigi, Eugenio Coronado|2014|Chemical Science|5|324|doi:10.1039/C3SC52628C

(mu~6~-Fluoro)-bis(mu~3~-methoxo)-hexakis(mu~2~-35-dimethylpyrazolato)-(mu~2~-hydroxo)-bis(mu~2~-methoxo)-hexa-copperSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 720018: Experimental Crystal Structure Determination

2010

Related Article: M.R.Sundberg, R.A.M.Uggla, R.J.Sillanpaa, K.K.Zborowski, A.Sanchez-Gonzalez, J.K.T.Matikainen, S.A.A.Kaltia, T.A.Hase|2010|Central Eur.J.Chem.|8|486|doi:10.2478/s11532-010-0033-z

(quinolinium-3-carboxylato-O)-trioxo-chromium(vi)Space GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 1919442: Experimental Crystal Structure Determination

2019

Related Article: Jana Anhäuser, Rakesh Puttreddy, Lukas Glanz, Andreas Schneider, Marianne Engeser, Kari Rissanen, Arne Lützen|2019|Chem.-Eur.J.|25|12294|doi:10.1002/chem.201903164

(rac)-hexakis(mu-NN'-[tricyclo[8.2.2.247]hexadeca-1(12)46101315-hexaene-512-diylbis(41-phenylene)]bis[1-(pyridin-2-yl)methanimine])-tetra-iron(ii) octakis(trifluoromethanesulfonate) unknown solvateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 998787: Experimental Crystal Structure Determination

2014

Related Article: Roman I. Zubatyuk, Anna A. Sinelshchikova, Yulia Y. Enakieva, Yulia G. Gorbunova, Aslan Y. Tsivadze, Sergey E. Nefedov, Alla Bessmertnykh-Lemeune, Roger Guilard, Oleg V. Shishkin|2014|CrystEngComm|16|10428|doi:10.1039/C4CE01623H

(tetraethyl (1020-diphenylporphyrin-515-diyl)bis(phosphonatato))-platinum(ii)Space GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 1825951: Experimental Crystal Structure Determination

2018

Related Article: Jacques Pliquett, Souheila Amor, Miguel Ponce-Vargas, Myriam Laly, Cindy Racoeur, Yoann Rousselin, Franck Denat, Ali Bettaïeb, Paul Fleurat-Lessard, Catherine Paul, Christine Goze, Ewen Bodio|2018|Dalton Trans.|47|11203|doi:10.1039/C8DT02364F

({2-[(5-chloro-1H-pyrrol-2-yl)(phenyl)methylidene]-N-[2-(diphenylphosphanyl)ethyl]-2H-pyrrol-5-aminato}(difluoro)boron)-chloro-gold(i) dichloromethane solvateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 1919440: Experimental Crystal Structure Determination

2019

Related Article: Jana Anhäuser, Rakesh Puttreddy, Lukas Glanz, Andreas Schneider, Marianne Engeser, Kari Rissanen, Arne Lützen|2019|Chem.-Eur.J.|25|12294|doi:10.1002/chem.201903164

ΔΔΔ)-hexakis(mu-(RP)-NN'-[tricyclo[8.2.2.247]hexadeca-1(12)46101315-hexaene-512-diylbis(41-phenylene)]bis[1-(pyridin-2-yl)methanimine])-tetra-iron(ii) octakis(trifluoromethanesulfonate) acetonitrile unknown solvateSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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The Greenland shark Somniosus microcephalus—Hemoglobins and ligand-binding properties

2017

A large amount of data is currently available on the adaptive mechanisms of polar bony fish hemoglobins, but structural information on those of cartilaginous species is scarce. This study presents the first characterisation of the hemoglobin system of one of the longest-living vertebrate species (392 +/- 120 years), the Arctic shark Somniosus microcephalus. Three major hemoglobins are found in its red blood cells and are made of two copies of the same a globin combined with two copies of three very similar beta subunits. The three hemoglobins show very similar oxygenation and carbonylation properties, which are unaffected by urea, a very important compound in marine elasmobranch physiology.…

---0301 basic medicinegenetic structuresProtein ConformationGreenlandlcsh:MedicineRESONANCE RAMAN-SPECTRAHETERODONTUS-PORTUSJACKSONISpectrum Analysis RamanBiochemistrychemistry.chemical_compoundHemoglobinsProtein structureAMINO-ACID SEQUENCEAnimal CellsSequence Analysis ProteinRed Blood CellsUreaNOTOTHENIOID FISHESPost-Translational Modificationlcsh:ScienceHemeChondrichthyesMultidisciplinarybiologyChemistryOrganic CompoundsChemical ReactionsVertebrateEukaryotaMOLECULAR ADAPTATIONSMicrocephalusGlobinsChemistryBiochemistryOptical EquipmentVertebratesPhysical SciencesEngineering and TechnologyCellular TypesResearch ArticleEnvironmental MonitoringProtein BindingQUATERNARY STRUCTURESAllosteric regulationEquipmentSTRETCHING FREQUENCIESHeme03 medical and health sciencesOXYGEN-BINDINGbiology.animalAnimals14. Life underwaterGlobinHemoglobinPhotolysisBlood Cells030102 biochemistry & molecular biologyLaserslcsh:ROrganic ChemistryOrganismsChemical CompoundsBiology and Life SciencesProteinsxxxCell Biologybiology.organism_classificationCARTILAGINOUS FISHOxygen030104 developmental biologySomniosusFishSharkslcsh:QHemoglobinProtein MultimerizationELASMOBRANCH HEMOGLOBINElasmobranchiiPLoS ONE
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Aggregation of [Ln(12)(III)] clusters by the dianion of 3-formylsalicylic acid. Synthesis, crystal structures, magnetic and luminescence properties

2019

Three isostrucutral dodecanuclear clusters with the general formula [Ln(12)(fsa)(12)(mu f(3)-OH)(12)(DMF)(12)]center dot nDMF (fsa(2-) is the dianion of 3-formylsalicylic acid; Ln = Eu 1, Gd 2, Dy 3) have been obtained from the reaction of fromylsalicyclic acid (H(2)fsa), tetrabutylammonium hydroxide and Ln(NO3)(3)center dot 6H(2)O in methanol/DMF. Their structure consists of four vertex-sharing heterocubanes. Each heterocubane unit is assembled from four Ln(III) ions, three mu(3)-OH groups and one mu(3)-oxygen atom arising from the fsa(2-) carboxylato group. The photophysical properties of the europium derivative investigated at both 300 and 80 K sustain a relative intense emission obtaine…

---Materials science010405 organic chemistryTetrabutylammonium hydroxidechemistry.chemical_elementCrystal structure010402 general chemistry01 natural sciences0104 chemical sciencesIonInorganic Chemistrychemistry.chemical_compoundCrystallographychemistryAtomDysprosiumMagnetic refrigerationEuropiumLuminescence
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Hexakis(diethylacetamide)iron(II) hexahalorhenate(IV) ionic salts: X-ray structures and magnetic properties

2015

Two novel Fe<sup>II</sup>-Re<sup>IV</sup> compounds of general formula [Fe<sup>II</sup>(DEA)<inf>6</inf>][Re<sup>IV</sup>X<inf>6</inf>] where DEA = diethylacetamide and X = Cl (1) and Br (2) have been prepared and magnetostructurally characterised. Complexes 1 and 2 are isomorphic ionic salts that crystallise in the trigonal crystal system with space group R(-3). The rhenium(IV) ion in 1 and 2 is six-coordinate with six chloro (1) or bromo (2) ligands building a regular octahedral chromophore. The Fe<sup>II</sup> ion is also six-coordinate, and bonded to six oxygen atoms from six DEA molecules. [Fe<sup&gt…

/dk/atira/pure/subjectarea/asjc/1600/1606/dk/atira/pure/subjectarea/asjc/1600/1604Rhenium(IV) complexes/dk/atira/pure/subjectarea/asjc/2500/2505ChemistryInorganic chemistrySupramolecular chemistryIonic bondingchemistry.chemical_elementDiethylacetamideCrystal structureRheniumIron(II) complexesMagnetic susceptibilityX-ray diffractionInorganic ChemistryCrystallographyOctahedronMagnetic propertiesX-ray crystallographyMaterials ChemistryMoleculePhysical and Theoretical ChemistryPolyhedron
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Variable time amplitude amplification and quantum algorithms for linear algebra problems

2012

Quantum amplitude amplification is a method of increasing a success probability of an algorithm from a small epsilon>0 to Theta(1) with less repetitions than classically. In this paper, we generalize quantum amplitude amplification to the case when parts of the algorithm that is being amplified stop at different times. We then apply the new variable time amplitude amplification to give two new quantum algorithms for linear algebra problems. Our first algorithm is an improvement of Harrow et al. algorithm for solving systems of linear equations. We improve the running time of the algorithm from O(k^2 log N) to O(k log^3 k log N) where k is the condition number of the system of equations. …

000 Computer science knowledge general works010201 computation theory & mathematics0103 physical sciencesComputer Science[INFO.INFO-CC] Computer Science [cs]/Computational Complexity [cs.CC][INFO.INFO-DS] Computer Science [cs]/Data Structures and Algorithms [cs.DS]0102 computer and information scienceslinear equations010306 general physicsquantum algorithmsamplitude amplification01 natural sciencesquantum computing
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