Search results for "ASR"

showing 10 items of 40 documents

CCDC 1047644: Experimental Crystal Structure Determination

2017

Related Article: Michael Mirion, Lars Andernach, Caroline Stobe, Joaquin Barjau, Dieter Schollmeyer, Till Opatz, Arne Lützen, Siegfried R. Waldvogel|2015|Eur.J.Org.Chem.|2015|4876|doi:10.1002/ejoc.201500600

Space GroupCrystallographyCrystal SystemCrystal Structure(5aSR7RS8aRS8cRS13bSR)-Ethyl-247101213b15-heptamethyl-568-trioxa-(benzo[h]-(benzo[b]furo)[23-b]-[4.3.3]propellan)-14-eneCell ParametersExperimental 3D Coordinates

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CCDC 1047645: Experimental Crystal Structure Determination

2017

Space GroupCrystallographyCrystal SystemCrystal Structure(5aSR8aRS8cRS13bSR)-24101213b15-Hexamethyl-568-trioxa-spiro[cyclohexakis(benzo[h](benzo[b]furo)[23-b]-[4.3.3]propellan)]-14-eneCell ParametersExperimental 3D Coordinates

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CCDC 1917242: Experimental Crystal Structure Determination

2019

Related Article: Stanislav Andreev, Tatu Pantsar, Francesco Ansideri, Mark Kudolo, Michael Forster, Dieter Schollmeyer, Stefan A. Laufer, Pierre Koch|2019|Molecules|24|2331|doi:10.3390/molecules24122331

Space GroupCrystallographyCrystal SystemCrystal Structure3-(3aRS7aSR)-(1-(7-chloro-9H-pyrimido[45-b]indol-4-yl)octahydro-6H-pyrrolo[23-c]pyridin-6-yl)-propanenitrileCell ParametersExperimental 3D Coordinates

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CCDC 607536: Experimental Crystal Structure Determination

2007

Related Article: A.Hoffmann-Roder, E.Schweizer, J.Egger, P.Seiler, U.Obst-Sander, B.Wagner, M.Kansy, D.W.Banner, F.Diederich|2006|ChemMedChem|1|1205|doi:10.1002/cmdc.200600124

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parameters(+-)-4-((1SR3aSR4RS8aSR8bRS)-1-Fluoro-2-(4-fluorobenzyl)-3-oxo-1-(trifluoromethyl)decahydropyrrolo(34-a)pyrrolizin-4-yl)benzonitrileExperimental 3D Coordinates

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CCDC 647231: Experimental Crystal Structure Determination

2007

Related Article: C.Peifer, D.Schollmeyer, M.Tschertsche, S.Laufer|2007|Acta Crystallogr.,Sect.E:Struct.Rep.Online|63|o2249|doi:10.1107/S1600536807014717

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parameters(2aRS3RS4aSR6aRS6bSR)-3-Hydroxy-2a34a66a6b-hexahydro-14-dioxacyclopenta(cd)pentalen-2(5H)-oneExperimental 3D Coordinates

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CCDC 1047647: Experimental Crystal Structure Determination

2017

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parameters(5aSR8aRS8cRS13bSR)-8-Aza-56-dioxa-24101213b15-hexamethyl-N-phenyl-(benzo[h]-(benzo[b]furo)[23-b]-[4.3.3]propellan)-14-ene-7-oneExperimental 3D Coordinates

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CCDC 1047646: Experimental Crystal Structure Determination

2017

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parametersrac-(5aRS7RS8aSR8cSR13bRS)-7-Ethyl-24101213b15-hexamethyl-568-trioxa-(benzo[h]-(benzo[b]furo)[23-b]-[4.3.3]propellan)-14-eneExperimental 3D Coordinates

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Triclosan induces Fas receptor-dependent apoptosis in mouse neocortical neurons in vitro

2014

Triclosan (TCS) is a commonly used antimicrobial agent in personal care and sanitizing products, as well as in household items. Numerous studies have demonstrated the presence of TCS in various human tissues. Several studies have reported the accumulation of TCS in fish and human brain tissue. The aim of the present study was to investigate the effect of TCS on apoptosis in mouse neocortical neurons after 7 days of culture in vitro following 3, 6 and 24 h of exposure. To explore the mechanism underlying the effects of TCS in neurons, we studied the activation and protein expression of the Fas receptor (FasR) and caspase- 8, caspase-9 and caspase-3, as well as DNA fragmentation in TCS-treate…

Time FactorsExtrinsic apoptotic signaling pathwayApoptosisNeocortexDNA fragmentation.DNA FragmentationCaspase 8caspase-8FasRMicePregnancyAnimalsfas ReceptorFADDEnzyme InhibitorsCells CulturedNeuronsDose-Response Relationship DrugL-Lactate DehydrogenasebiologyGeneral NeurosciencefungiEmbryo MammalianStaurosporineFas receptorApoptotic bodyTriclosanIn vitroCell biologyBiochemistryApoptosisCaspasesbiology.proteinFatty Acid Synthesis InhibitorsDNA fragmentationFemaleNeuroscience

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Exploiting multimodality for intelligent mobile access to pervasive services in cultural heritage sites

2010

In this chapter the role of multimodality in intelligent, mobile guides for cultural heritage environments is discussed. Multimodal access to information contents enables the creation of systems with a higher degree of accessibility and usability. A multimodal interaction may involve several human interaction modes, such as sight, touch and voice to navigate contents, or gestures to activate controls. We first start our discussion by presenting a timeline of cultural heritage system evolution, spanning from 2001 to 2008, which highlights design issues such as intelligence and context-awareness in providing information. Then, multimodal access to contents is discussed, along with problems an…

World Wide WebCultural heritagechatbot rfid multimodality asrGeographyMultimediacomputer.software_genrecomputerMultimodality

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Evaluation of Haynes230 for Solid Oxide Fuel Cell Interconnect Application

2008

National audience; Abstract - Interconnects are among the most critical parts for commercialization of SOFCs. They separate the fuel and oxidant gases and provide electric connection between the anode and cathode of adjacent cells. A Ni-based alloy, Haynes230 alloy, was evaluated in this work as a candidate material for SOFC interconnects application. During operation, a scale of chromia forms on Haynes230. Unfortunately, this scale can degrade the fuel cell performances. Thus, protective coatings are required to increase long-term stability. In this study, a nanometric layer made of reactive element oxide (La2O3, Nd2O3 and Y2O3) was applied on alloy surface by MOCVD. Perovskite oxides, suc…

[CHIM.INOR] Chemical Sciences/Inorganic chemistryMetallic interconnectASRNi-based AlloyMOCVD[ CHIM.INOR ] Chemical Sciences/Inorganic chemistrySOFC[CHIM.INOR]Chemical Sciences/Inorganic chemistryWater vapour

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