Darwin Microfluidics

Cleaning microfluidic chips can be tricky 😵💫 Different materials like glass, PDMS, and thermoplastics need different cleaning methods... Without the right approach, contamination or blockages can ruin your results. So we've put together a comprehensive guide to help you clean microfluidic chips the right way! It covers all the methods you need for each material, helping you keep your chips in top shape and your experiments running smoothly 😉 you can check it here: https://lnkd.in/esvryBFf 👩🔬👨🔬 #microfluidics

Another day in the lab, another set of warped microchips… Using the wrong sterilization method can ruin your components, and it’s both a loss of resources and time... No one wants to work with unreliable parts or contamination risks. If you’re working with heat- and moisture-sensitive materials, Ethylene Oxide could be your next best choice! This gas-based method will give you a thorough cleaning, and it’s compatible with many microfluidic materials. Check out our new blog article, it includes a handy compatibility chart to help you! https://lnkd.in/ePCKHU98 👩🔬👨🔬 #microfluidics #sterilization

Lacking accuracy in your cell culture research? 🤏 Sure, 2D cell culture is THE standard, but these models are oversimplified. It’s easy to miss crucial insights when working on cell behavior and drug responses. With 3D cell culture, you could take your research to the next dimension! 🧊 It better represents real tissue environments, bridging the gap between your research and in-vivo. Swipe through the carousel to explore the advantages and challenges of 3D cell culture 👉 👩🔬👨🔬 #microfluidics #organonchip #3Dcellculture

Are you passionate about life sciences and ready to bring technical expertise to the forefront of innovation? What’s the role? You’ll be in touch with researchers worldwide, helping them with projects combining biology and microfluidics. You’ll be responsible for our Life Science catalog, growing our range of instruments and consumables for bio researchers. You’ll manage the entire sales process, from quotes to orders, while providing technical expertise. You’ll also be the main contact for our biology/organ-on-a-chip suppliers and help manage partnerships 🦠 You’ll attend scientific conferences as a supplier and meet clients on-site. Why join us? 🧪 You’ll work in a dynamic environment where you can apply your technical skills and make a real impact in the world of microfluidics 🔬 You’ll have access to the latest tech developed by our partners 🏢Enjoy awesome offices in the heart of Paris ✨Be part of a young, multidisciplinary, and super-motivated team Plus: meal tickets, Gymlib subscription, and flexibility with hours, holidays, and remote work! Interested? Apply now! https://lnkd.in/eefCK_NX P.S. Know someone perfect for this role? Feel free to share! 😁 👩🔬👨🔬 #microfluidics #hiring

As researchers, we know how tough it can be to create realistic models for drug testing and studying diseases 😓 Traditional methods often don’t fully capture how human organs work. That’s where the HUMIMIC Chip4 comes in 😉 This platform enables the simultaneous cultivation of up to five tissue types, providing a more precise model for the study of drug and disease metabolism. With HUMIMIC Chip4, you can make faster, more reliable decisions in your research. It’s perfect for anyone working in pharmaceuticals, chemicals, or cosmetics 🧑🔬 Find it here: https://lnkd.in/eEiGuUYk 👩🔬👨🔬 #TissUse #HUMIMIC #OrganOnChip #Research #Biotech #Innovation

We’re excited to announce our partnership with TissUse GmbH, a biotech company based in Berlin! 🥳 TissUse has developed a "Multi-Organ-Chip" that mimics the way human organs work. This enables researchers to test the safety and efficacy of drugs without using animals 🐭 This technology makes testing faster, cheaper, and more accurate. (which is why their platform is already being used to develop drugs, cosmetics, food, etc. 😉 ) We’re looking forward to working together to push research forward and improve how we test products. Thank you for your trust! 😁 👩🔬👨🔬 PS: If you're curious, you can now find their products here: https://lnkd.in/e3T4R6AA 😁 #microfluidics #organonchip #biotech #partnership

Who hasn't damaged precious components by choosing the wrong sterilization method? 🤕 Sterilization is a must, but not all methods work for every material. And when you choose the wrong method, be prepared for a run of bad luck... Put an end to degradation and warping, discover which method works best for different materials, and always get reliable results. Curious for more details and tips? Check out the full article on our blog! 😄 https://lnkd.in/eXNESnx7 👨🔬👩🔬 #microfluidics #sterilization

Starting with Droplet Generation? 💧 Here Are Some Tips! Browse this quick carousel to discover simple steps to make droplet generation easier 😉 We cover basic setup, tips, and a few tricks to help you work more easily in the lab. Everything is presented step-by-step so that you can get started without any questions. Take a look and see how these small changes can improve your droplet work 👀 👩🔬👨🔬 PS: if you want to dive deeper into it, check the full article here: https://lnkd.in/ePnM-cSR

Many researchers need help with choosing the right pump technology. Piezoelectric pumps offer compact designs and precise control but can be tricky to use ⚙️ We’ve created a guide to help you understand piezoelectric pumps. This resource explains their structure, benefits, and common uses like drug delivery and electronics cooling. Want to learn more about it? Check out the guide 📖 https://lnkd.in/eMiUixpn 👩🔬👨🔬 #microfluidics #piezopump

Ever wondered about the differences between organoids and spheroids? Let’s clear it up! 🔎 In short, organoids and spheroids may seem similar at first, but they serve unique purposes in research. Organoids are more complex structures, often used to model specific organs or tissues. Spheroids, on the other hand, are simpler, usually representing clusters of cells that grow in three dimensions. That’s it! Just a quick overview to get you on track. For a deeper look, feel free to swipe 😁 👩🔬👨🔬 #microfluidics #organonchips #biologist