LCGC International’s Post

This article delves into the capabilities of a SLIM-based high-resolution ion mobility (HRIM) spectrometer with an extended ~13 m separation path. Discover how this innovation benefits scientists tackling complex analytes like glycans, peptides, and lipids. Read more here: https://lnkd.in/emA3g7vb

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

Accelerate proteomics workflow throughput (HTS) using magnetic separations with our automation-verified Thermo Scientific™ Pierce™ Magnetic Beads. Pierce Magnetic Beads are small, 1 μm particles that allow for high-throughput screening, purification, and immunoprecipitation with ng–μg protein yields. Alternatively, Pierce Magnetic Agarose consists of significantly larger, 10–40 μm particles and is used for high-capacity protein purification at mg–g scales. Both Pierce magnetic bead types can be automated on Thermo Scientific™ KingFisher™ Instruments or used in a manual format with magnetic stands. #kingfisher #magneticagarose #magneticbeads #proteinpurification

Learn how 4D analysis of lipid nanoparticles (LNPs) provides exceptional sensitivity and specificity of LNP components and provides insight to their chemical interactions in biological systems: https://lnkd.in/eFy6utWx #lipidomics #metabolomics #LipidNanoParticles #massspectrometry

Accelerate proteomics workflow throughput (HTS) using magnetic separations with our automation-verified Thermo Scientific™ Pierce™ Magnetic Beads. Pierce Magnetic Beads are small, 1 μm particles that allow for high-throughput screening, purification, and immunoprecipitation with ng–μg protein yields. Alternatively, Pierce Magnetic Agarose consists of significantly larger, 10–40 μm particles and is used for high-capacity protein purification at mg–g scales. Both Pierce magnetic bead types can be automated on Thermo Scientific™ KingFisher™ Instruments or used in a manual format with magnetic stands. #kingfisher #magneticagarose #magneticbeads #proteinpurification

Micron- and submicron-sized droplets are crucial in biomedical fields for diagnosis and drug delivery, necessitating both a consistent size distribution and high output. Traditional microfluidic methods produce monodispersed droplets but face limitations in droplet size due to channel height and low production rates when dealing with viscous liquids. See how Photron high-speed cameras were used to study the a new gas-assisted coflow step-emulsification technique using air to form a precursor hollow-core emulsion, resulting in oil droplets that adhere to triphasic step-emulsification scaling laws. https://smpl.is/8lazs

👩🔬 ✨ 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

👩🔬 ✨ 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

[Renishaw Webinar] Fast Raman imaging – methods and techniques A modern research-grade Raman microscope can automatically collect Raman spectra to generate Raman images. Raman imaging can provide insight into variations in chemical composition, material stress and strain and defects within a sample. This can be applied to many samples from semiconductors and minerals, to pharmaceuticals and biological specimens. In this webinar, we will explore fast Raman imaging for various real-world applications. You will learn about: - The information that can be derived from a Raman spectral image - Fast Raman imaging methods and when to use each one - Optimising Raman imaging parameters for your samples - Data processing and Chemometric analysis for large data sets Save The Date: 📅 Thursday, 18 July 2024 🕓 13.00 WIB - Till end ✍ Registration: https://bit.ly/FRImaging 📃 For more info please see the flyer or visit the registration link #DynatechInternational #Renishaw #webinar #freewebinar #fastramanimaging #frimaging #ramanmicroscope #ramanimaging

Doing more single-cell analysis with less …? The alternative is not optical – but electrifying.    Compared to optical methods, Impedance Flow Cytometry offers a cost-effective analytical method for single-cell analysis regarding investment, cost per sample, and maintenance costs. Other advantages are: -       Faster: no incubation time, real-time analysis -       Less input: no dyes, no markers, no expensive kits (for apoptosis, e.g.) -       More sustainable: no hazardous chemicals, no plastic cartridges   Based on electrical resistance of cells instead of optical detection, impedance flow cytometry shows to be a powerful tool for single-cell analysis with a resource-efficient footprint. The measurements take place in a microfluidic chip which can be used for thousands of measurements. This is resourceful and cost-efficient!   No markers, no dyes, no expensive kits are necessary, and apoptosis can be studied in the same chip where cell viability, counting and metabolic status is screened. In addition, no hazardous chemicals are used nor plastic cartridges – which is good for your budget but also for the environment.   More information about single cell analysis based on Impedance Flow Cytometry you can find here: https://lnkd.in/esv6767J     #flowcytometry #cellanalysis #labelfree