Search results for "Fluidics"

showing 10 items of 131 documents

Crowdsourced analysis of fungal growth and branching on microfluidic platforms

2021

Fungal hyphal growth and branching are essential traits that allow fungi to spread and proliferate in many environments. This sustained growth is essential for a myriad of applications in health, agriculture, and industry. However, comparisons between different fungi are difficult in the absence of standardized metrics. Here, we used a microfluidic device featuring four different maze patterns to compare the growth velocity and branching frequency of fourteen filamentous fungi. These measurements result from the collective work of several labs in the form of a competition named the “Fungus Olympics.” The competing fungi included five ascomycete species (ten strains total), two basidiomycete…

Aspergillus NidulansHyphal growthMicrofluidicsYeast and Fungal ModelsmikrofluidistiikkaPathology and Laboratory MedicineBranching (linguistics)Microbial PhysiologyMedicine and Health SciencesBiological Phenomenamedia_commonFungal Pathogensmicrofluidic platformsMultidisciplinaryOrganic CompoundsQMonosaccharidesRMicrobial Growth and DevelopmentEukaryotaMicrofluidic Analytical TechniquesChemistryAspergillusAspergillus FumigatusExperimental Organism SystemsFungal MoldsMedical MicrobiologyPhysical SciencesMedicineEngineering and TechnologyCrowdsourcingcrowdsourcingFluidicsPathogenssienetBiological systemResearch ArticlesienirihmastotFungal GrowthFungal growthGeneral Science & TechnologySciencemedia_common.quotation_subjectCarbohydratesHyphaeMycologyBiologyResearch and Analysis Methodsfungal growthkasvuMicrobiologyCompetition (biology)AscomycotaSpecies SpecificitybranchingMicrobial PathogensBasidiomycotaOrganic ChemistryfungiOrganismsChemical CompoundsFungiSustained growthBiology and Life SciencesCollective workYeastGlucosejoukkoistaminenAnimal StudiesLinear growthDevelopmental BiologyFungal hyphaePLOS ONE
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Development of a membrane-less microfluidic thermally regenerative ammonia battery

2021

Thermally regenerative ammonia battery is a promising approach to make use of waste heat and generate electrical energy. However, according to literature, the price of the energy obtained by this device is much higher than alternative renewable technologies (such as wind, solar, geothermal, etc.). To make the process more viable for applicative purposes, it would be necessary to reduce dramatically the cost of the membrane or to avoid it. Hence, the aim of the present work is to increase the economic figures of thermally regenerative ammonia battery avoiding the use of membranes. It was concluded that this result can be obtained by developing the process in a microfluidic flow cell with lam…

Battery (electricity)Work (thermodynamics)Materials science020209 energyMicrofluidics02 engineering and technology7. Clean energyIndustrial and Manufacturing Engineering020401 chemical engineeringWaste heat0202 electrical engineering electronic engineering information engineering0204 chemical engineeringElectrical and Electronic EngineeringProcess engineeringCivil and Structural EngineeringPower densitybusiness.industryMechanical EngineeringBuilding and ConstructionThermally regenerative ammonia battery Microfluidic Membrane-less Membrane-less TRABSettore ING-IND/27 - Chimica Industriale E TecnologicaPollutionVolumetric flow rateGeneral EnergyMembraneElectrodebusiness
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Polylactic is a Sustainable, Low Absorption, Low Autofluorescence Alternative to Other Plastics for Microfluidic and Organ-on-Chip Applications

2020

Organ-on-chip (OOC) devices are miniaturized devices replacing animal models in drug discovery and toxicology studies. The majority of OOC devices are made from polydimethylsiloxane (PDMS), an elastomer widely used in microfluidic prototyping, but posing a number of challenges to experimentalists, including leaching of uncured oligomers and uncontrolled absorption of small compounds. Here we assess the suitability of polylactic acid (PLA) as a replacement material to PDMS for microfluidic cell culture and OOC applications. We changed the wettability of PLA substrates and demonstrated the functionalization method to be stable over a time period of at least 9 months. We successfully cultured …

BiocompatibilityPolydimethylsiloxane010401 analytical chemistryMicrofluidicstechnology industry and agricultureSettore ING-IND/34 - Bioingegneria IndustrialeNanotechnologymacromolecular substancesengineering.material010402 general chemistryElastomerSettore ING-INF/0701 natural sciences0104 chemical sciencesAnalytical Chemistrychemistry.chemical_compoundAutofluorescenceCoatingPolylactic acidchemistryBiocompatibility Cell culture Diseases Elastomers Microchannels Microfluidics Polydimethylsiloxane Silicones TransparencyengineeringSurface modificationAnalytical Chemistry
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Active and Passive Motion in Complex pH‐Fields

2021

BiomaterialsMaterials scienceIon exchangeRenewable Energy Sustainability and the EnvironmentChemical physicsMicrofluidicsMaterials ChemistryPassive motionEnergy Engineering and Power TechnologyChemNanoMat
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Microfluidic Synthesis of Liquid Crystalline Elastomer Particle Transport Systems which Can Be Remote‐Controlled Magnetically

2019

BiomaterialsMaterials scienceLiquid crystallineMicrofluidicsElectrochemistryNanotechnologyCondensed Matter PhysicsElastomerParticle transportElectronic Optical and Magnetic MaterialsAdvanced Functional Materials
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Segmented Flow-Based Multistep Synthesis of Cadmium Selenide Quantum Dots with Narrow Particle Size Distribution

2015

A continuous-flow microreactor was used to synthetize II-VI semiconductor quantum dots (CdSe). In order to improve the size distribution of the nanoparticles, the synthesis was carried out in a two-step procedure. A seed solution was obtained in a separate nucleation step, followed by a controllable growth step. Quantum dots that are synthesized with the two-step method show a much narrower size distribution in comparison to those obtained in a conventional batch synthesis.

Cadmium selenidebusiness.industryChemistryGeneral Chemical EngineeringMicrofluidicsFlow (psychology)MicrofluidicsAnalytical chemistryNucleationNanoparticleGeneral ChemistryCdSeIndustrial and Manufacturing Engineeringchemistry.chemical_compoundQuantum dotQuantum DotsParticle-size distributioncontinuous flowOptoelectronicsdroplet flowMicroreactorbusinessChemical Engineering & Technology
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Hyaluronic acid based nanohydrogels fabricated by microfluidics for the potential targeted release of Imatinib: Characterization and preliminary eval…

2019

Abstract Microfluidics is emerging as an innovative technique for the “on chip” fabrication of nanoparticles for drug delivery applications. Here, by using an amphiphilic derivative of hyaluronic acid as a starting macromolecule, nanohydrogels loaded with Imatinib were produced by the microfluidic procedure in order to develop an innovative therapeutic tool for the treatment of retinal neovascularization. Both cyRGDC functionalized and non-functionalized nanohydrogels were designed and fabricated by using the same technique. The targeting efficiency of the obtained nanosystems was studied in vitro on human retinal pigment epithelial cells (HRPEpiC) and human umbilical vein endothelial cells…

Cell SurvivalDrug CompoundingHyaluronic acidMicrofluidicsMicrofluidicsPharmaceutical ScienceAngiogenesis Inhibitors02 engineering and technologyRetinal Pigment Epithelium030226 pharmacology & pharmacyTHERAPYUmbilical veinANGIOGENESISNeovascularization03 medical and health scienceschemistry.chemical_compoundNanoparticle0302 clinical medicineLab-On-A-Chip DevicesAmphiphileHyaluronic acidmedicineHuman Umbilical Vein Endothelial CellsHumansPEPTIDEDRUG-DELIVERYNeovascularizationDrug CarriersChemistryImatinibHydrogels021001 nanoscience & nanotechnologyRANIBIZUMABVEGFIn vitroChoroidal NeovascularizationNanostructuresINTEGRINSMicrofluidicDrug deliveryImatinibImatinib MesylateFeasibility StudiesNanoparticlesmedicine.symptomTargeted delivery0210 nano-technologyBiomedical engineeringmedicine.drug
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Temporal Monitoring of Differentiated Human Airway Epithelial Cells Using Microfluidics

2015

The airway epithelium is exposed to a variety of harmful agents during breathing and appropriate cellular responses are essential to maintain tissue homeostasis. Recent evidence has highlighted the contribution of epithelial barrier dysfunction in the development of many chronic respiratory diseases. Despite intense research efforts, the responses of the airway barrier to environmental agents are not fully understood, mainly due to lack of suitable in vitro models that recapitulate the complex in vivo situation accurately. Using an interdisciplinary approach, we describe a novel dynamic 3D in vitro model of the airway epithelium, incorporating fully differentiated primary human airway epith…

Cellular differentiationMicrofluidicsRespiratory Systemlcsh:Medicine02 engineering and technologyIn Vitro TechniquesBiology03 medical and health sciencesIn vivomedicineHumansInterleukin 8lcsh:ScienceTissue homeostasis030304 developmental biology0303 health sciencesMultidisciplinarylcsh:REpithelial Cells021001 nanoscience & nanotechnologyEpitheliumCell biologymedicine.anatomical_structureCell cultureImmunologyRespiratory epitheliumlcsh:Q0210 nano-technologyAirwayResearch ArticlePLOS ONE
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Synergies between Hyperpolarized NMR and Microfluidics: A Review

2021

Hyperpolarized nuclear magnetic resonance and lab-on-a-chip microfluidics are two dynamic, but until recently quite distinct, fields of research. Recent developments in both areas increased their synergistic overlap. By microfluidic integration, many complex experimental steps can be brought together onto a single platform. Microfluidic devices are therefore increasingly finding applications in medical diagnostics, forensic analysis, and biomedical research. In particular, they provide novel and powerful ways to culture cells, cell aggregates, and even functional models of entire organs. Nuclear magnetic resonance is a non-invasive, high-resolution spectroscopic technique which allows real-…

Chemical processNuclear and High Energy PhysicsMedical diagnosticMagnetic Resonance SpectroscopyPHYSICAL MANIPULATIONSComputer scienceProcess (engineering)MicrofluidicsMicrofluidicsFOS: Physical sciencesContext (language use)Nanotechnology02 engineering and technology010402 general chemistry01 natural sciencesBiochemistryAnalytical ChemistryLab-On-A-Chip DevicesPhysics - Chemical PhysicsHyperpolarization (physics)SpectroscopyChemical Physics (physics.chem-ph)021001 nanoscience & nanotechnologyMagnetic Resonance Imaging0104 chemical sciences0210 nano-technologyProgress in Nuclear Magnetic Resonance Spectroscopy
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Current trends in affinity-based monoliths in microextraction approaches: A review

2019

Abstract This article reviews the research contributions along the past five years concerning to monolithic materials for the development of affinity-based sorbents in the field of microextraction techniques. The first part of this paper includes an introduction regarding monolithic affinity media and information of different binding agents (such as immunoglobulin-binding proteins, enzymes, lectins, antibodies, aptamers, dyes and immobilized metal ions and nanoparticles, among others) that can act as affinity ligands. Then, the preparation of monoliths and ligand immobilization strategies as well as the different available formats (syringes, pipette tips, spin columns, capillaries, disks an…

ChemistryAptamer010401 analytical chemistryMicrofluidicsNanoparticleNanotechnology02 engineering and technologyLigands021001 nanoscience & nanotechnology01 natural sciencesBiochemistryChromatography Affinity0104 chemical sciencesAnalytical ChemistryHumansEnvironmental ChemistrySample preparationAdsorption0210 nano-technologySolid Phase MicroextractionSpectroscopyAnalytica Chimica Acta
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