Surface Plasmon Resonance (SPR) Essentials & Principles of High Throughput Kinetic Analysis
The use of HT-SPR is critical to speeding the discovery and development timelines for both therapeutics and vaccines. This presentation covers: Physical properties that underpin SPR technology Generation of high-quality kinetic data with SPR technology High throughput (HT-SPR) technology advances with the LSA High throughput SPR will accelerate your drug discovery. Presented by Dinuka Abeydeera, PhD, Team Lead for Training and Support, Carterra
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Fundamentals of Surface Plasmon Resonance (SPR) and High Throughput Kinetic Analysis
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Principles of surface plasmon resonance (SPR) used in Biacore™ systems - Cytiva
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Allotropic forms of carbon-from physics and materials science applications in biomedical engineering
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Gold nanoparticles and plasmonics: let’s make the electrons dance!
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Metallization: Making Conductive Traces on Silicon Chips.
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But what is the Fourier Transform? A visual introduction.
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Nanomanufacturing: 11 - Surface plasmon resonance
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Analytical mass spectrometry workflow for VAMS and its applications in cardiology and beyond
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Webinar: Massively Parallel SPR Based Fragment Screening on Ligand Arrays
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Surface Plasmon Resonance (SPR) Explained: Real-Time Binding Kinetics Beyond Yes or No
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What do tech pioneers think about the AI revolution? - The Engineers, BBC World Service
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How AI Cracked the Protein Folding Code and Won a Nobel Prize
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The Affinity ITC – A New Powerful Microcalorimetry Tool
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AlphaFold - The Most Useful Thing AI Has Ever Done
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Surface Plasmons
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Gas Chromatography Demystified - Understanding How A GC Works
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Synchrotron Computed Tomography + AI-Based Image Analysis for Characterization of Spray Dried ASDs
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Comparing LSPR and SPR for Diagnostics - LamdaGen
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Plasmonic Nanoparticles and Nanostructures (Ivan Smalyukh)
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