Autofluorescence is your new best friend
Photothermal Spectroscopy Corp (PSC) is pleased to announce the launch of its NEW Widefield O-PTIR Chemical Imaging system.
Please join Dr Craig Prater, CTO of PSC and Widefield O-PTIR co-inventor, in this comprehensive webinar to learn about the revolutionary Widefield O-PTIR Chemical Imaging system and how it’s transforming biological sample analysis through the power of autofluorescence.
Traditional infrared imaging techniques face significant limitations when analyzing biological samples—slow acquisition times, limited spatial resolution, and inability to leverage natural cellular fluorescence for enhanced contrast and guidance. Conventional FTIR microscopy requires lengthy measurement times and struggles with the complex autofluorescent nature of biological tissues.
Widefield O-PTIR™ is changing everything.
This breakthrough technique enables sub-500nm IR chemical imaging at unprecedented speeds, powered by the patented Fluorescence Detection Photothermal Infrared (FL-PTIR) technology. Widefield O-PTIR delivers simultaneous fluorescence imaging with sub-micron IR spectroscopy, transforming autofluorescence from a hindrance into a powerful analytical advantage for biological sample characterization.
Join us to discover how Widefield O-PTIR is revolutionizing chemical imaging—finally making it possible to collect high-resolution IR chemical images in seconds with full hyperspectral capabilities across hundreds of thousands of pixels.
Webinar Highlights: ✅ Revolutionary Speed & Resolution – IR chemical images in seconds with 130nm pixel resolution across 262,144 (512×512) pixels
✅ Sub-500nm Widefield O-PTIR – Breakthrough technique with simultaneous fluorescence imaging for diverse life science applications
✅ Hyperspectral Imaging – Full hyperspectral images in minutes with unprecedented spatial and spectral detail
✅ Autofluorescence Advantage – Learn how natural cellular fluorescence enhances rather than hinders analysis
✅ Multi-Modal Capabilities – Overview of submicron O-PTIR with simultaneous Raman (IR+Raman) and co-located fluorescence imaging
✅ Superior Performance – Comparisons and advantages over traditional FTIR and Raman microscopy techniques
✅ Real-World Applications – Examples from tissues, plants, microorganisms, and other biological systems
✅ High-Impact Research – Review of recent publications demonstrating breakthrough applications
Who Should Attend? 🔬 Life Science Researchers – Biologists, biochemists, and cell biologists studying complex biological systems
🏥 Biomedical Scientists – Researchers in pathology, histology, and medical diagnostics
🌱 Plant & Agricultural Scientists – Experts studying plant biology, food science, and agricultural applications
🦠 Microbiologists – Scientists investigating microbial systems and biofilms
🧪 Analytical Chemists – Professionals developing advanced spectroscopic methods for biological analysis
⚡ Pharmaceutical & Biotechnology – Industry scientists focused on drug discovery and biological characterization
Don’t miss this opportunity to witness the future of chemical imaging!
