Fluigent’s Post

Our team is setting new standards in microfluidics with oxygen nanoparticles for accurate oxygen measurements. These technological advancements enable precise and timely analyses in microfluidic chips, enhance the execution of complex chemical and enzymatic reactions, and are crucial in the development of high-throughput screening methods and lab-on-a-chip applications. Discover more about these innovations: https://lnkd.in/eus-Zr9Y. #pyroscience #microfluidics #labtech #microphysiologicalsystems #organonchip #cellculture #3DCellCulture #organoids #oxygensensing

Photonic biosensors based on evanescent wave detection utilize total internal reflection to detect changes in the refractive index near the sensor surface caused by biomolecular interactions. These biosensors offer high sensitivity, label-free detection, real-time monitoring, and potential for miniaturization. They are commonly used in medical diagnostics, environmental monitoring, food safety, and drug discovery. Examples include Surface Plasmon Resonance (SPR) biosensors, fiber optic biosensors, photonic crystal biosensors, and microresonator biosensors. #3dprinting #photonic #microfluidic

Photonic biosensors based on evanescent wave detection utilize total internal reflection to detect changes in the refractive index near the sensor surface caused by biomolecular interactions. These biosensors offer high sensitivity, label-free detection, real-time monitoring, and potential for miniaturization. They are commonly used in medical diagnostics, environmental monitoring, food safety, and drug discovery. Examples include Surface Plasmon Resonance (SPR) biosensors, fiber optic biosensors, photonic crystal biosensors, and microresonator biosensors. #3dprinting #photonic #microfluidic

Although molecular dynamics is a powerful tool to analyze material nature in nanoscale, it is not so easy to access larger length and time scale. Using a coarse-grained model, you can treat several 10 nm scale and micro second order phenomena. In this approach, several atoms are represented as a single particle, and it can be applied to  phenomena on larger space and time scales than full-atom molecular dynamics. You can find many case studies regarding materials design and drug formulation. J-OCTA case studies >>https://lnkd.in/gfyzB6Fz #molecularmodeling #moleculardynamics #coasegrainedmoleculardynamics #CGMD #simulation #rubbercomposite #entangled #viscosity #polyelectrolyte #drugdelivery #formulation

Introducing a membrane sensor microfluidic platform for extracellular vesicle and lipoprotein diagnostics: in this perspective article, Hsueh-Chia Chang at University of Notre Dame and collaborators designed ExoLP-Dx, a charge-based electrokinetic membrane sensor featuring silica nanoparticle reporters, designed to mitigate interference, reduce incubation time, enhance sensitivity, and address normalisation challenges in samples from raw plasma, all without the need for sample pretreatment or isolation https://lnkd.in/e5aiBFjh Their ultimate objective is to develop an advanced automated ExoLP-Dx system that can process physiological samples like plasma directly, eliminating the need for prior treatment. An article co-authored by Sonu Kumar and Satyajyoti Senapati #extracellularvesicles #exosomes #diagnostics #microfluidics #nanoparticles #Vesiculab

👩🔬 ✨ This is an opportunity to learn more about your complex samples, for example with larger particles, species mixtures, difficult buffer... by measuring the size distribution of all #nanoparticles. 🧬 ✨ At Nanoscale Metrix, we help the science of #ultrasmall #nanoobjects, following in the footsteps of the pioneers of #Taylor dispersion! #pharma #biotechnology #instrumentation #nanomedicine #custommedicine #biopharma #health #research #TDA #Ultrasmall #NanoObjects #USNO #materialscience #Goodforscience #TDA #SizeDistribution #TaylorDispersionAnalysis #nanoparticles

Avantor New Products! 1️⃣   Upgrade any #stereomicroscope with the #NIGHTSEA Stereo Microscope Fluorescence Adapter from #ElectronMicroscopySciences to add fluorescence imaging without modifying the microscope itself. Simple setup and powerful results!  2️⃣   Get superior specificity and sensitivity for the detection and quantification of DNA or RNA using the new #VWR® #qPCR and #RT-qPCR reagents. Experience speed, cost-savings, and broad instrument compatibility.  3️⃣   Dive into the latest innovations, trends, equipment, and techniques in drug discovery and synthetic methodology, including advancements in battery research, heterocyclic compounds, and flow technology with the newest edition of #Focus: Organic Synthesis Magazine. Featuring comprehensive solutions from leading industry innovators: Avantor, #ThermoFisherScientific, #ApolloScientific Ltd, TCI - #TokyoChemicalIndustry, #MilliporeSigma, #LabconcoCorporation, #eMolecules, and more! 4️⃣   Use the #VWR® Traceable 7600 Smart Wi-Fi Connected Data Logger to keep your lab connected and monitor critical environments with real-time data access, alerts, and remote calibration, designed for modern labs. 5️⃣   ThermoFisher Scientific Everylab Packages – Choose the best package for your needs with ventilated or refrigerated microcentrifuges paired with pipette kits and accessories, offering robust solutions for sample prep. #sampleprep #lifesciences #labsupplies #organicsynthesis #batteryresearch #innovation #DNA #RNA #flowtechnology #AvantorSetsScienceinMotion

Discover how integrating recirculation techniques can enhance your experimental setup, mimicking physiological conditions and improving performance 🦠 From peristaltic pumps to alternative setups with pressure controllers and flow sensors, we delve into the options available for precise fluid control. 🚀 Our comprehensive guide offers insights to deepen your understanding of drug absorption, distribution, metabolism, and elimination. Don't miss out on the potential applications for organ-on-a-chip platforms and complex flow models! 🧬 Check out our blog post now, you might find it interesting 😉 https://lnkd.in/endMHZ9x 👩🔬👨🔬 #Microfluidics #ResearchTips

👩🔬 ✨ Join our #betatest #TaylorSizer program to explore your challenging #nanoparticles #nonaoobjects samples with Taylor Dispersion Analysis! 🔬 ✨ Taylorsizer is a state-of-the-art, compact and automated biophysical #characterization analyzer using #TaylorDispersionAnalysis that guarantees particle size distribution, viscosity and stability of species <50 nm. 💡It's free and win-win💡. You discover powerful technology and we understand your science better! ⏱️ This is an opportunity to learn more about your complex samples, for example with larger particles, species mixtures, difficult buffer... by measuring the size distribution of all #nanoparticles. 🧬 ✨ At Nanoscale Metrix, we help the science of #ultrasmall #nanoobjects, following in the footsteps of the pioneers of #Taylor dispersion! #pharma #biotechnology #instrumentation #nanomedicine #custommedicine #biopharma #health #research #TDA #Ultrasmall #NanoObjects #USNO #materialscience #Goodforscience #TDA #SizeDistribution #TaylorDispersionAnalysis #nanoparticles

No dye? No label? And how do you tag it? Single cell analysis – Label free! Impedance Flow Cytometry (IFC) is a label free technology for single cell analysis. Unlike optical methods, IFC does not need labels, markers or fluorochrome dyes for the identification of viable and dead cells or to study cell metabolic and health status.   Impedance Flow Cytometry goes beyond cell counting and even beyond analysis of dead and viable cells. IFC allows to detect the health status of cells in fermentation processes or to monitor the metabolic status of cell cultures during the production of proteins or other metabolites. And that all without markers or dyes!   Interested in how it works without labels and dyes? More information about single cell analysis based on Impedance Flow Cytometry you can find here: https://lnkd.in/esv6767J   #flowcytometry #cellanalysis #labelfree