Filtration Technologies
Filtration Technologies
Unlock Faster Safer Biopharmaceutical Analysis Now!
Unlock the secrets of efficient particle analysis! 🌟 Enhance accuracy and speed in protein detection for biopharmaceutical success. 🔍💡📈🔬
Revolutionary Microfluidics: The Future of Personalized Medicine
🧪 Microfluidics + 🔬 = 💰 & 💉. Discover how personalized medicine can benefit from this powerful combination.
Unlocking the Secrets of LNPs: Nano-Flow Cytometry Reveals All
📢 Comprehensive LNP Characterization from Cargo to Target Modification Using Nano-Flow Cytometry explores innovative techniques for analyzing lipid nanoparticles. 🔬🚀💊🔍✨
Revolutionary Supor Prime Filters: The Ultimate Solution for High-Concentration Therapies
🔍 Discover Supor Prime Filters: a reliable filtration solution for high-concentration therapies, ensuring safe and effective manufacturing processes. 🌡️💧🔬💪🏥
Game-Changing Protein Purification Method Unveiled
🔬🧪 Researchers at Queen's University in Canada are developing a cost-effective alternative to Ni-NTA for protein purification using polyphosphate (polyP). 📰
Breakthrough Method Detects Different DNA Forms
🔬 Researchers have developed a method to detect different isoforms of plasmid DNA using microfluidic electrophoresis. 🧬💉🧪💡
Revolutionary Mass Photometry Boosts Gene Therapy Quality
🌟✨ Mass photometry is a game-changer for gene therapy companies, providing accurate assessments without labeling or long run times. 🧬💡
Revolutionary Self-Composting Bioplastic: Saving the Planet
🔬 Researchers at UC San Diego have developed a biodegradable plastic that decomposes with the help of bacterial spores. 🌱🌍
Optimizing pH Sensors for Bioprocessing: Which is More Accurate?
🔍 pH sensors play a crucial role in maintaining optimal pH range during bioprocessing. Traditional vs. optical sensors compared. 💡
Maximize Filter Efficiency: Study Reveals Key Design Optimization
📢 Fouling of hollow fiber filter membranes in perfusion cell cultures can cause unstable processes and failures. 🔍 A recent study compared filters from three manufacturers and found that larger internal diameters and shorter filter lengths reduce fouling. 💡 Filters with 0.2 μm pore size and 2.6 mm internal diameter maintained high product sieving and low hydraulic resistance. ⚙️ The study suggests that optimizing the design of hollow fiber filters can help maximize membrane area and reduce fouling. 🧪
