Search results for "surface area"

showing 3 items of 203 documents

Antineoplastic dosing in overweight and obese cancer patients: an Associazione Italiana Oncologia Medica (AIOM)/Associazione Medici Diabetologi (AMD)…

2021

Most anticancer molecules are administered in body-size-based dosing schedules, bringing up unsolved issues regarding pharmacokinetic data in heavy patients. The worldwide spread of obesity has not been matched by improved methods and strategies for tailored drug dosage in this population. The weight or body surface area (BSA)-based approaches may fail to fully reflect the complexity of the anthropometric features besides obesity in cancer patients suffering from sarcopenia. Likewise, there is a lack of pharmacokinetic data on obese patients for the majority of chemotherapeutic agents as well as for new target drugs and immunotherapy. Therefore, although the available findings point to the …

obesityCancer Researchmedicine.medical_specialtypharmacokinetic parametersConsensusBSAcancer drug dosingPopulationchemotherapy doseAntineoplastic AgentsReviewOverweightNODosing schedulesNeoplasmsPhysiciansInternal medicineHumansMedicineDosingLS4_3educationBody surface areaeducation.field_of_studybusiness.industryCancerCytotoxic chemotherapymedicine.diseaseOncologyBSA; cancer drug dosing; chemotherapy dose; obesity; pharmacokinetic parametersPosition paperBSA; cancer drug dosing; chemotherapy dose; obesity; pharmacokinetic parameters; Consensus; Humans; Obesity; Antineoplastic Agents; Neoplasms; Physiciansmedicine.symptombusinessESMO Open

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Preparation of tungstophosphoric acid/cerium-doped NH2-UiO-66 Z-scheme photocatalyst: a new candidate for green photo-oxidation of dibenzothiophene a…

2021

International audience; The goal of this study was to introduce an effective visible-light induced photocatalytic system with a good ability for photocatalytic oxidative desulfurization (PODS) and denitrogenation (PODN) using molecular oxygen (O2) as an oxidant. In this regard, tungestophosphoric acid (PW12) was supported onto cerium-doped NH2-UiO-66 (PW12/Ce-NUiO-66) and employed for the photo-oxidation of dibenzothiophene (DBT) and quinoline (Qu). Herein, using cerium (Ce) as a “mediator” facilitated the separation of charge carriers, while NH2-UiO-66 remarkably enhanced the surface area with plentiful adsorption sites and shifted the adsorption edge of PW12to the visible region. The sum …

pore volumeAdsorption edgesLight02 engineering and technology01 natural scienceschemistry.chemical_compound[SPI]Engineering Sciences [physics]quinolineVisible-light irradiationMaterials Chemistryoxidizing agentOxidative desulfurizationirradiationQuinolineCerium021001 nanoscience & nanotechnologyOxidantsFlue-gas desulfurizationCeriumDibenzothiophenePhotocatalysisCharge carrierCarrier mobility0210 nano-technologychemistry.chemical_element010402 general chemistryMaximum EfficiencyCatalysisArticleuraniumAdsorptionphosphotungstic acidpore size distributiondibenzothiophene derivativegreen chemistryphotooxidationDopingdesulfurizationGeneral Chemistrysurface areaPhotocatalytic systems0104 chemical sciencesVisible light inducedDibenzothiophenesTungstophosphoric acidMolecular oxygenPhotocatalytic activitychemistryadsorptiondesorptionoxygenphotocatalysisNuclear chemistrycatalyst

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Comparison of the Properties of Activated Carbons Produced in One-Stage and Two-Stage Processes

2018

Activated carbons (ACs) can be produced from biomass in a thermal process either in a direct carbonization-activation process or by first carbonizing the biomass and later activating the bio-chars into activated carbons. The properties of the ACs are dependent on the type of process used for production. In this study, the properties of activated carbons produced in one-stage and two-stage processes are considered. Activated carbons were produced by physical activation of two types of starting materials: bio chars produced from spruce and birch chips in a commercial carbonization plant and from the corresponding raw chips. The activated carbons produced were characterized regarding specific …

porosity020209 energychemistry.chemical_elementBiomass02 engineering and technologyThermal treatment010501 environmental sciencesphysical activation01 natural sciencesspecific surface areaslcsh:QD241-441huokoisuuslcsh:Organic chemistryspeciﬁc surface areasBiochar0202 electrical engineering electronic engineering information engineeringmedicineactivated carbonbiomassa (teollisuus)Porosityta1160105 earth and related environmental sciencesbio-charbiomassCarbonizationOne stageGeneral MedicineaktivointichemistryChemical engineeringaktiivihiiliactivationCarbonthermal treatmentActivated carbonmedicine.drugC

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