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🔜In just a short few days, we will be at #BPS2024 - the premier scientific conference for all things at the interface of life, physical, and computational sciences. Stop by Booth #713 to meet our technical experts and see a live demonstration of graphene liquid cell preparation - which takes only a matter of minutes using the Naiad-1.💧 GLCs can be used for liquid-phase electron microscopy or flash-frozen for cryo-EM. Naiad-1 makes working with graphene liquid cells easy and attainable for any laboratory, delivering fast and reliable sample preparation on standard TEM grids within minutes.⏳ Learn more 👉https://ow.ly/kJEJ50QvG6E #GrapheneLiquidCells #GLC #Naiad #VitroTEM

Nano Fun? You Bet! Get Hooked on AFM with Dr. Pablo Ares Here is the fascinating realm of Atomic Force Microscopy (AFM) and its groundbreaking applications in nanoscience. Dr. Pablo Ares from Universidad Autónoma de Madrid, a leading expert in the field provides a clear and engaging introduction to AFM's functionalities and its remarkable capabilities. What you'll learn: The fundamental principles of AFM technology Practical applications of AFM across various scientific disciplines The power of AFM in manipulating and imaging objects at the atomic level AFM's Impact: AFM has revolutionized research in numerous fields, including: Materials Science: Characterizing material properties at the nanoscale for advanced material development. Biology: Imaging biological structures like proteins and membranes for a deeper understanding of cellular processes. Chemistry: Probing the behavior of molecules and chemical reactions at the atomic level. This video is a valuable resource for anyone interested in: Nanoscience and nanotechnology Advanced microscopy techniques The future of scientific exploration Podcast Host: Dr. Pranoti Kshirsagar Share your thoughts and questions about AFM in the comments below! #AFM #nanoscience #science #technology #research https://lnkd.in/gGY3bBqz

The Anatomy of a Raman Microscope! www.edinst.com Inside Dispersive Raman Microscope, we will have 1. Laser source from UV-VIS, to NIR 2. Band Pass Filters 3. ND filters 4. Raman Filters (Edge, Notch, and ULF) 5. Confocal Pinhole 6. Monochromator (Gratings) 7. Detectors (CCD, EMCCD, InGaAs) 8. Reflection mirrors to guide laser light to sample and raman signal to detector 9. Microscope set (stage, light illumination, objective lenses, camera for visualization) 10. Optional accessories : temperature control, electrochemical, tensile strength, raman polarization, etc [email protected] 081295500228 #raman #ramanspectroscopy #ramaneffect #materialsscience #materials #materialsengineering #ftir

If you are in Dallas for the #DAMOP, let’s meet and discuss. I am presenting imaging the electron motion dynamics in graphene using attosecond electron microscope #attomicroscopy.

#RoboMet is becoming an important part of a suite of characterization methods used to analyze #AdditiveManufacturing. Check out this publication from Iowa State University in which a broad range of analyses including optical and electron microscopy, X-ray computed tomography, energy-dispersive spectroscopy, and electron backscatter diffraction have been used to characterize a raster-scanned electron beam Ti–6Al–4V sample. https://hubs.li/Q020P7qH0

The paper below was recently published by researchers at Argonne National Laboratory (ANL) and explores innovative methods for investigating mesoscale grain structures with a focus on dark field X-ray microscopy (DFXM). The paper demonstrates the capability of BrillianSe approaching nanoscale resolution which is particularly crucial when investigating weak diffraction signals in magnetic systems, quantum materials, and thin films. In addition to providing insights into the breakthrough applications mentioned above, the researchers at ANL compared the BrillianSe X-ray detector with routinely used scintillator-based optical detection. The results were impressive, showing an order of magnitude improvement in exposure times. This enhancement allows for the imaging of weakly diffracting ordered systems, opening new possibilities for research. Are you attending the APS/CNM Users Meeting next week at ANL? Make sure you stop by our booth to talk more about potential applications for our innovative line of detectors. https://lnkd.in/gSdcKrK6 #synchrotron #xrayimaging #ANL #APS #CNM

❓ Have you ever wondered what the spot, blob, or strange shape in your #cryoTEM image is? I've compiled a guide to understanding 5 common artifacts observed in nanoparticle characterization transmission electron microscopy images, why they occur, and how NIS scientists overcome each obstacle. 📖 Check it out: https://lnkd.in/gwg9MeKJ

Missed our recent webinar? You can still watch it and learn how #MassPhotometry helped study the architecture & conformational variability of shelterin – a complex that safeguards human telomeres – also giving insights about its interactions with telomeric DNA.    What’s more? John Zinder, PhD explains how mass photometry can be used orthogonally to other bioanalytical techniques for protein complex characterization, including electron microscopy, mass spectrometry and structural modeling.  In partnership with SelectScience®  ➡ https://lnkd.in/e_BJExrR 

Discover how Image Scanning Microscopy (ISM) can enhance your research by providing superior image quality without compromising on acquisition time or illumination intensity. Don’t miss out on this opportunity to see the unseen! Join the webinar on April 30th at 11am (ET).