Search results for "Chemical effects"

showing 3 items of 3 documents

Morphological and biochemical effects of glucocorticoids in chick embryo hepatocytes during development

1988

Abstract The administration in ovo of hydrocortisone-21-phosphate caused, in chick embryo liver, a reduction of the number of hepatocytes which can be isolated from 1 mg dry weight of liver and a marked increase of their size. Moreover, the treatment diminished the incorporation of thymidine into acid-insoluble fraction in these cells whilst it augmented the content of protein, RNA, DNA and the level of thymidine kinase/cell. These effects were highest at 8–10 days, then declined with the age, disappearing after 18th day of incubation. Similar effects were obtained by injecting other glucocorticoids or ACTH. Combined treatment with metopirone abolished the effects found with ACTH, but did n…

Agingmedicine.medical_specialtyHydrocortisoneChick EmbryoBiologyPeptide hormoneIn ovoThymidine Kinasebiochemical effectschemistry.chemical_compoundAdrenocorticotropic HormoneInternal medicinemedicineAnimalsGlucocorticoidsIncubationEmbryogenesisEmbryoMetyraponeEndocrinologyLiverchemistryThymidine kinaseThymidineGlucocorticoidDevelopmental Biologymedicine.drug
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Experimental assessment of the hydro-mechanical behaviour of a shale caprock during CO2 injection

2021

Abstract The presented experimental study focuses on the hydro-mechanical characterisation of a shale caprock (Opalinus Clay) in contact with carbon dioxide. The objective of this paper, consists in the evaluation of the material's sealing capacity in terms of entry-pressure, mechanical behaviour and sensitivity of the transport properties to chemo-mechanical effects induced by gaseous and liquid CO2 injection. Two types of Opalinus Clay core samples are tested; shaly and carbonate-rich. The sealing capacity has been evaluated on the shaly OPA according to the stepwise and the residual methods and compared to the results from mercury intrusion porosimetry. The obtained results and the diffe…

Capillary entry-pressureMaterials scienceCapillary action2Caprock integrityCore (manufacturing)02 engineering and technology010501 environmental sciencesManagement Monitoring Policy and LawLaboratory scale01 natural sciencesIndustrial and Manufacturing EngineeringChemical effects020401 chemical engineeringCaprockGeological CO0204 chemical engineeringOpalinus Clay0105 earth and related environmental sciencesPetroleum engineeringsequestrationPollutionPermeability (earth sciences)General EnergyShalesMercury intrusion porosimetryOil shale
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The chemical effects of molecular sol–gel entrapment

2007

Chemical conversions within the cages of doped sol-gel porous oxides take place with unique advantages over reactions in solution as the glassy matrix has tremendous effects on the reactivity of the entrapped molecules. The chemical properties of sol-gel materials can be tailored in an immense range of values and chemists are increasingly achieving control on reactions taking place within these matrices, including crucially important photovoltaics. Highlighting recent major advancements, we show in this tutorial review how this is actually taking place.

Chemical effectsscanning electronChemistryGlassy matrixSol-gelsMoleculeReactivity (chemistry)NanotechnologySol-gel processGeneral ChemistrySol-gelChem. Soc. Rev.
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