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Solution-casted polymer nanolayers are part of many technical applications. The solvent mass transport parameters are often unknown. However, they are a decisive factor for the determination of drying times, amounts of trace solvent, long-term stability and multilayer intermixing. By setting up a measurement system and conducting experimental and numerical investigations the difference in mass transport characteristics in micro- to nanoscale polymer layers is shown.
Nanoschichten --- Sorption --- Quartz-Crystal-Microbalance --- nanolayers --- Trocknung --- Diffusion --- sorption --- Quarz-Kristall-MikrowaageDrying
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543.08 --- Physical measurements --- Microbalances --- Microbalance --- Balances (Weighing instruments) --- Measurements, Physical --- Mathematical physics --- Measurement --- Analytical measurement --- 543.08 Analytical measurement
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Zeolite membranes have shown promising applications in catalytic and separation processes in chemical industry. A simulation-assisted design method based on experiments and simulations is shown to guide the development of hierarchically structured catalyst systems based on zeolite membranes by predicting the optimal catalyst structure. A cornerstone of this method is a 3-D pore network model – crystallite-pore network model for simulation of diffusion and reaction in polycrystalline zeolites.
Direkte DME-Synthese --- Hochfrequenzschwingmikrowaage --- Kristallit-Porennetzwerk-Modell --- Crystallite-pore network model (CPNM) --- Direct DME-synthesis --- Polykristallines ZeolithCore-shell catalyst --- Polycrystalline zeolite --- High frequency oscillating microbalance --- Kern-Schale-Katalysator
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Measuring methods in physics --- Microbalances --- 53.08 --- Microbalance --- Balances (Weighing instruments) --- General principles and theory of measurement and the design of measuring apparatus. Measurement methods --- 53.08 General principles and theory of measurement and the design of measuring apparatus. Measurement methods
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The field of solid-state chemical sensor design is a research field of increasing interest as a result of the demands for reliable, inexpensive, and portable systems for environmental monitoring, assessing indoor air quality, food quality control, military, and many other applications. Solid-state chemical sensors, because they can be microfabricated using modern technologies of mass production, may be able to realize those requirements in practice. Solid-state sensor technology has advanced remarkably during the past few decades and is rapidly becoming an essential technology. As a result, many solid-state chemical sensors are now commercially available, and researchers are working to develop next-generation solidstate sensors that have all the necessary requirements, including small size, low production costs, and low power consumption.
Chemical detectors. --- Solid state chemistry. --- Chemistry, Solid state --- Chemistry, Physical and theoretical --- Chemical sensors --- Chemical apparatus --- Detectors --- calorimetric sensors --- capacitance sensors --- chemical sensors --- conductometric sensors --- FET sensors --- gas sensors --- integrated chemical sensors --- metal oxide sensors --- microcantilevers --- pyroelectric sensors --- quartz crystal microbalance --- Schottky sensors --- solid-state sensors --- surface acoustic wave sensors --- thermoelectric sensors --- work-function sensors
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There are 12 papers published with 8 research articles, 3 review articles and 1 perspective. The topics cover: Biomedical microfluidics Lab-on-a-chip Miniaturized systems for chemistry and life science (MicroTAS) Biosensor development and characteristics Imaging and other detection technologies Imaging and signal processing Point-of-care testing microdevices Food and water quality testing and control We hope this collection could promote the development of microfluidics and point-of-care testing (POCT) devices for biosensing.
Technology: general issues --- amine functionalization --- graphene oxide --- immunosensor --- electrochemistry --- ferritin --- microfluidics --- synthesis --- nanoparticles --- microparticles --- integrated systems --- modularisation --- HFF-QCM (high fundamental frequency quartz crystal microbalance) --- mass transport --- flow cell --- biosensor --- food safety --- PoC (point of care) --- MQCM (monolithic quartz crystal microbalance) --- wearable biosensors --- biomedical microfluidics --- healthcare monitoring --- sports analytics --- microfluidic adsorption-based sensor --- stochastic model --- adsorption --- mass transfer --- ultimate noise performance --- detection limit --- quantification limit --- fluorescence-linked immunosorbent assay --- lab-on-a-disk --- vascular endothelial growth factor --- 3D microstructure --- high-frequency dielectrophoresis --- glioblastoma cells --- single cell manipulation --- microfluidic point-of-care device --- cancer stem cells --- microstructure topography --- PC12 cells --- neural differentiation --- capillary pressure control valve (CPCV) --- passive valve --- two-phase biocatalysis --- microfluidic droplets --- enzyme --- dental practice --- point-of-care diagnostics --- treatment monitoring --- oral health --- periodontitis --- caries --- saliva diagnostics --- Mycoplasma pneumoniae --- macrolides --- resistance mutations --- microfluidic --- 3D-printed --- sample-to-answer --- qPCR
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There are 12 papers published with 8 research articles, 3 review articles and 1 perspective. The topics cover: Biomedical microfluidics Lab-on-a-chip Miniaturized systems for chemistry and life science (MicroTAS) Biosensor development and characteristics Imaging and other detection technologies Imaging and signal processing Point-of-care testing microdevices Food and water quality testing and control We hope this collection could promote the development of microfluidics and point-of-care testing (POCT) devices for biosensing.
amine functionalization --- graphene oxide --- immunosensor --- electrochemistry --- ferritin --- microfluidics --- synthesis --- nanoparticles --- microparticles --- integrated systems --- modularisation --- HFF-QCM (high fundamental frequency quartz crystal microbalance) --- mass transport --- flow cell --- biosensor --- food safety --- PoC (point of care) --- MQCM (monolithic quartz crystal microbalance) --- wearable biosensors --- biomedical microfluidics --- healthcare monitoring --- sports analytics --- microfluidic adsorption-based sensor --- stochastic model --- adsorption --- mass transfer --- ultimate noise performance --- detection limit --- quantification limit --- fluorescence-linked immunosorbent assay --- lab-on-a-disk --- vascular endothelial growth factor --- 3D microstructure --- high-frequency dielectrophoresis --- glioblastoma cells --- single cell manipulation --- microfluidic point-of-care device --- cancer stem cells --- microstructure topography --- PC12 cells --- neural differentiation --- capillary pressure control valve (CPCV) --- passive valve --- two-phase biocatalysis --- microfluidic droplets --- enzyme --- dental practice --- point-of-care diagnostics --- treatment monitoring --- oral health --- periodontitis --- caries --- saliva diagnostics --- Mycoplasma pneumoniae --- macrolides --- resistance mutations --- microfluidic --- 3D-printed --- sample-to-answer --- qPCR
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There are 12 papers published with 8 research articles, 3 review articles and 1 perspective. The topics cover: Biomedical microfluidics Lab-on-a-chip Miniaturized systems for chemistry and life science (MicroTAS) Biosensor development and characteristics Imaging and other detection technologies Imaging and signal processing Point-of-care testing microdevices Food and water quality testing and control We hope this collection could promote the development of microfluidics and point-of-care testing (POCT) devices for biosensing.
Technology: general issues --- amine functionalization --- graphene oxide --- immunosensor --- electrochemistry --- ferritin --- microfluidics --- synthesis --- nanoparticles --- microparticles --- integrated systems --- modularisation --- HFF-QCM (high fundamental frequency quartz crystal microbalance) --- mass transport --- flow cell --- biosensor --- food safety --- PoC (point of care) --- MQCM (monolithic quartz crystal microbalance) --- wearable biosensors --- biomedical microfluidics --- healthcare monitoring --- sports analytics --- microfluidic adsorption-based sensor --- stochastic model --- adsorption --- mass transfer --- ultimate noise performance --- detection limit --- quantification limit --- fluorescence-linked immunosorbent assay --- lab-on-a-disk --- vascular endothelial growth factor --- 3D microstructure --- high-frequency dielectrophoresis --- glioblastoma cells --- single cell manipulation --- microfluidic point-of-care device --- cancer stem cells --- microstructure topography --- PC12 cells --- neural differentiation --- capillary pressure control valve (CPCV) --- passive valve --- two-phase biocatalysis --- microfluidic droplets --- enzyme --- dental practice --- point-of-care diagnostics --- treatment monitoring --- oral health --- periodontitis --- caries --- saliva diagnostics --- Mycoplasma pneumoniae --- macrolides --- resistance mutations --- microfluidic --- 3D-printed --- sample-to-answer --- qPCR --- amine functionalization --- graphene oxide --- immunosensor --- electrochemistry --- ferritin --- microfluidics --- synthesis --- nanoparticles --- microparticles --- integrated systems --- modularisation --- HFF-QCM (high fundamental frequency quartz crystal microbalance) --- mass transport --- flow cell --- biosensor --- food safety --- PoC (point of care) --- MQCM (monolithic quartz crystal microbalance) --- wearable biosensors --- biomedical microfluidics --- healthcare monitoring --- sports analytics --- microfluidic adsorption-based sensor --- stochastic model --- adsorption --- mass transfer --- ultimate noise performance --- detection limit --- quantification limit --- fluorescence-linked immunosorbent assay --- lab-on-a-disk --- vascular endothelial growth factor --- 3D microstructure --- high-frequency dielectrophoresis --- glioblastoma cells --- single cell manipulation --- microfluidic point-of-care device --- cancer stem cells --- microstructure topography --- PC12 cells --- neural differentiation --- capillary pressure control valve (CPCV) --- passive valve --- two-phase biocatalysis --- microfluidic droplets --- enzyme --- dental practice --- point-of-care diagnostics --- treatment monitoring --- oral health --- periodontitis --- caries --- saliva diagnostics --- Mycoplasma pneumoniae --- macrolides --- resistance mutations --- microfluidic --- 3D-printed --- sample-to-answer --- qPCR
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This succinct reprint provides students and researchers the latest studies to the world of surface coatings in biomedical applications. This eBook contains one editorial, one review paper, and 10 research papers. The technology covers vapor phase coating, wet chemistry coating, and plasma spray. The research areas focus on antifouling, anti-corrosion, and tissue engineering. This specific and accessible reprint is the ideal example of surface coatings for students in bioengineering and materials science.
Technology: general issues --- zinc --- titanium oxide --- micro-arc oxidation --- antibacterial activity --- osteogenic cell compatibility --- bio-inspiration --- anti-corrosion coating --- salt gland --- mangrove --- one-step preparation --- nickel nanoparticles --- magnetic poly(vinyl alcohol) gels --- Sr–HT–Gahnite --- hydroxyapatite --- atmospheric plasma spray --- nanoindentation --- mechanical properties --- protein identification --- matrix-assisted laser desorption/ionization-time of flight --- proteomics --- quartz crystal microbalance --- self-assembled monolayer --- copper nanoparticles --- silver nanoparticles --- nanostructure --- nanocluster --- antifungal --- antibacterial --- escherichia coli --- candida auris --- bioimplants --- orthopedic --- metallic biomaterials --- degradation --- surface modification --- coatings --- nanomaterials --- icariin --- aspirin --- composite coating --- TiO2 nanotubes --- immunomodulatory effect --- macrophage --- osteoblast activity --- pure magnesium --- ultrasonic micro-arc oxidation --- berberine --- corrosion resistance --- PPy/PDA nanocomposite --- nanowires --- polydopamine --- electrical stimulation --- vapor sublimation --- vapor deposition --- nanoparticle --- anisotropic material --- timed control --- n/a --- Sr-HT-Gahnite
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Fucoidans are a group of fucose-containing sulfated polysaccharides found in many species of brown seaweeds, with numerous bioactive properties. As a highly bioactive seaweed substance with many promising physiological activities, fucoidans have attracted attention from many industries all over the world. Even though fucoidans are a rich source of bioactive properties, the structural properties and bioactive mechanisms of fucoidans are poorly understood. Therefore, novel studies that either characterize the physical properties or biological activities of fucoidans will fill the knowledge gap between industrial applications and the scientific background of those applications. Both purified and partially purified fucoidans isolated from brown seaweeds present high potential as preventative and therapeutic agents against number of chronic diseases, due to their anti-inflammatory, antioxidant, anticancer, neuroprotective, antiviral, antimicrobial, and anticoagulative properties. This Special Issue is aimed at presenting updated information on well-documented studies of the structural characterization and major biological actions relevant for medical, cosmeceutical, and pharmaceutical applications that fucoidans isolated from brown seaweed can offer.
Medicine --- fucoidan --- low-molecular-weight fucoidan --- adriamycin --- nephrotic syndrome --- psoriasis --- Traf3ip2 --- microbiota --- mucin --- IgA --- fucoidans --- extraction --- brown algae --- production --- bioactivities --- Sri Lankan algae --- anticancer --- sulfated polysaccharide --- Celluclast --- sargassum --- antioxidant --- Maldives --- Padina boryana --- zebrafish --- apoptosis --- DR4 --- mitochondrial pathway --- cancer --- metastasis --- epithelial mesenchymal transition --- nanoparticles --- Helicobacter pylori --- mozuku --- Cladosiphon okamuranus Tokida --- urinalysis --- fucose --- enzymatic purification --- age-related macular degeneration --- VEGF --- oxidative stress --- Laminaria digitata --- Fucus distichus subsp. evanescens --- Saccharina latissima --- retinal pigment epithelium --- ROS --- Phaeophyta --- carbohydrate --- UVB irradiation --- HaCaT cells --- sulfated heterosaccharide --- dopamine neurons apoptosis --- PI3K–Akt --- ascorbic acid --- anti-lung cancer --- human lung carcinoma A-549 cells --- hydrogen peroxide --- Sargassum crassifolium --- fucoidan from Ascophyllum nodosum --- postprandial hyperglycemia --- in vitro and in vivo evaluation --- SGLT1 --- chitosan --- fibroblast growth factor-2 --- polyelectrolyte multilayer --- infrared spectroscopy --- quartz crystal microbalance --- sulfated polysaccharides --- natural defenses --- phenolic metabolism --- phenylalanine ammonia-lyase --- n/a --- PI3K-Akt
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