Search results for "Elena"
showing 10 items of 102 documents
Zeusi e la bellezza di Elena
2004
Dall’antichità fino al Settecento (Plinio, Cicerone, Boccaccio, Ghiberti, Pico della Mirandola, Alberti, Ludovico Dolce, Bellori, Giovan Battista Marino, Batteux), vengono esaminate le varianti dell’aneddoto di Zeusi (V-IV sec. a. C.) che, per dipingere Elena nel tempio di Hera lacinia, prese a modello le cinque più belle fanciulle di Crotone. Nelle varie fonti la vicenda oscilla tra imitazione realistica e idealizzante; attraverso l’analisi di queste trasformazioni semantiche si tenta di dimostrare come la storia di Zeus, lungi dal costituire un mero topos, assurga a paradigma ermeneutico della creazione artistica.
PIXE ANALYSES OF THE SOLUBLE AND MEMBRANE SE-CONTAINING PROTEINS EXTRACTED FROMCUPRIAVIDUS METALLIDURANSCH34 AFTER SELENIUM OXIDES CHALLENGE
2008
The soil bacterium Cupriavidus metallidurans CH34 resist selenite by reducing it into the insoluble and less toxic elemental selenium. Two mechanisms of reduction of selenium oxides in C. metallidurans CH34 were highlighted: assimilation leading to organic species and detoxification leading to precipitation of selenite in nanoparticules of elemental selenium. The alkyl selenide detected as an intermediate product during assimilation of selenite or as the major accumulated chemical form during assimilation of selenate was identified as selenomethionine.Soluble and membrane proteins were extracted from C. metallidurans CH34 submitted to selenium oxides challenge. After separation by SDS-PAGE,…
Isotope Fractionation of Selenium During Fungal Biomethylation by Alternaria alternata
2011
The natural abundance of stable Se isotopes may reflect sources and formation conditions of methylated Se. We aimed at (1) quantifying the degree of methylation of selenate [Se(VI)] and (hydro)selenite [Se(IV)] by the fungus Alternaria alternata at pH 4 and 7 and (2) determining the effects of these different Se sources and pH values on 82Se/76Se ratios (δ82/76Se) in methylselenides. Alternaria alternata was incubated with Se(VI) and Se(IV) in closed microcosms for 11-15 days and additionally with Se(IV) for 3-5 days at 30 °C. We determined Se concentrations and δ82/76Se values in source Se(VI) and Se(IV), media, fungi, and trapped methylselenides. In Se(VI) incubations, methylselenide vola…
CCDC 143351: Experimental Crystal Structure Determination
2001
Related Article: O.Blacque, H.Brunner, M.M.Kubicki, F.Leis, D.Lucas, Y.Mugnier, B.Nuber, J.Wachter|2001|Chem.-Eur.J.|7|1342|doi:10.1002/1521-3765(20010316)7:6<1342::AID-CHEM1342>3.0.CO;2-D
CCDC 1847278: Experimental Crystal Structure Determination
2021
Related Article: Waly Diallo, Libasse Diop, Cheikh Abdoul Khadir Diop, H��l��ne Cattey, Laurent Plasseraud|2018|Main Group Met.Chem.|41|183|doi:10.1515/mgmc-2018-0029
Organotin(IV) Complexes Containing Sn–O–Se Moieties: A Structural Inventory
2018
This review focuses on organotin compounds exhibiting Sn–O–Se moieties, the molecular structures of which have been previously resolved by single-crystal X-ray diffraction analysis. Three distinct classes of compounds have been identified. Thus, the various modes of coordination of selenite, selenate and organoseleninate anions with tin atoms of organotin(IV) fragments are illustrated and detailed.1 Introduction2 Organotin(IV) Selenite Complexes3 Organotin(IV) Selenate Complexes4 Organotin(IV) Organoseleninate Complexes5 Summary
Synthesis of novel fluorinated building blocks via halofluorination and related reactions.
2020
A study exploring halofluorination and fluoroselenation of some cyclic olefins, such as diesters, imides, and lactams with varied functionalization patterns and different structural architectures is described. The synthetic methodologies were based on electrophilic activation through halonium ions of the ring olefin bonds, followed by nucleophilic fluorination with Deoxo-Fluor®. The fluorine-containing products thus obtained were subjected to elimination reactions, yielding various fluorine-containing small-molecular entities.
CCDC 1573804: Experimental Crystal Structure Determination
2017
Related Article: Paul J. Ragogna, Cameron Graham, Clement Millet, Amy N Price, Juuso Valijus, Michael J Cowley, Heikki Tuononen|2017|Chem.-Eur.J.|24|672|doi:10.1002/chem.201704337
Organotin(IV) selenate derivatives – Crystal structure of [{(Ph 3 Sn) 2 SeO 4 } ⋅ CH 3 OH] n
2021
Abstract Crystallization of [(Ph3Sn)2SeO4] ⋅ 1.5H2O in methanol leads to the formation of [{(Ph3Sn)2SeO4} ⋅ CH3OH] n (1) which constitutes a new specimen of organotin(IV) selenate derivatives. In the solid state, complex 1 is arranged in polymeric zig-zag chains, composed of alternating Ph3Sn and SeO4 groups. In addition, pendant Ph3Sn ⋅ CH3OH moieties are branched along chains according to a syndiotactic organization and via Sn-O-Se connections. From a supramolecular point of view, intermolecular hydrogen bonds established between the selenate groups (uncoordinated oxygen) and the hydroxyl functions (CH3OH) of the pendant groups link the chains together.
5-Methylbenzo[d][2,1,3]selenadiazole
2017
In the crystal of the title compound, C7H6N2Se, the molecules are arranged in rods along theb-axis direction and form dimeric units due to intermolecular Se...N contacts of 2.982 (2) Å. The molecules are further linked by weak π–π stacking interactions between the 2,1,3-selenadiazole and six-membered aromatic rings [centroid–centroid distance = 3.8509 (11) Å and ring slippage = 1.539 (3) Å].