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Hello! Thanks for your question. Our system is compatible with all kind of fluids. We will be happy to further discuss this with you to better understand your project and provide you with the most accurate information. Could you please contact us through our website? It will be easier to discuss. (www.elveflow.com/contact/) Have a nice day

Hello, Thanks again for your interest! You can contact our experts to customize and then get the price of the system you want: www.elveflow.com/microfluidics-application-packs/biology-packs/one-way-recirculation/ Have a nice day, Marie from the Elveflow Team

Hello, thanks for your interest! You can contact us through our website: www.elveflow.com/microfluidic-products/microfluidics-flow-control-systems/ob1-pressure-controller/ & our experts will be here for you. Have a nice day, Marie from the Elveflow Team

Hello! The cells seeded in this video were MCF7 cells, but this technique will work for many different cell types. To learn more, have a look at our Application Note on Automated cell seeding in a microfluidic chip for dynamic cell culture: www.elveflow.com/microfluidic-applications/microfluidic-cell-culture/automated-cell-seeding/ If you have any other questions, you can contact our experts via the contact form at the bottom of the page. Have a good day 🙂 Marie, from the Elveflow Team

Hello Miguel Angel Pachas, Thank you for getting in touch with us! One of our experts will be shortly take care of your request. Have a good day, Marie, from the Elveflow Team

Hello, Thanks for your question. Yes, when ready to run an experiment, you should also connect tubing from both chip outlets to a waste reservoir. Thanks for your observation. Have a good day! Lisa Muiznieks

And feel free to have a look at our website (www.elveflow.com/) or contact our experts if you need anything! :-)

Hey, To learn more about pressure-driven flow control, you can have a look at our application note: www.elveflow.com/microfluidic-applications/setup-microfluidic-flow-control/pressure-driven-flow-control/ Have a good day 🙂 Marie from the Elveflow Team

Hello Dr. Ravi Kant, You're welcome and we're glad you enjoyed it! Feel free to check all our open-acess ressources (Application notes, reviews, white papers...): www.elveflow.com/microfluidic-resources/ Have a nice day :-) Marie from the Elveflow Team

Hello Maria, At 6:53, Aurélie said "the flow regime controlled by the flow rate is also an important parameter to achieve a desireable formation mechanism". Hope this helped! Have a good day, Marie from Elveflow

Hi Ifeoma! The particle size can be controlled first by choosing the appropriate nozzle size on the chip and then by tuning the flow rates of each phase. You can intentionally generate different droplet sizes in one experiment by applying different flow rate conditions during the experiment. For more details, contact us directly at contact@elveflow.com, we will be happy to have a chat with you! Have a nice day, Alex Lheureux, from the Elveflow Team

Hello, It's an old video, with no sound... but keep in touch, we will publish an update soon! Have a nice day

Hello, Thanks to a pressure-driven flow controller! This instrument helps to flow independantly dispersed and continuous phases inside the microfluidic chip, enabling water in oil (W/O) or oil in water (O/W) droplets to be generated. We have a dedicated video about about pressure-driven flow control: czcams.com/video/niWfINDUub4/video.html & you can learn more about droplet generation on our website: www.elveflow.com/microfluidic-products/microfluidics-application-packs/easy-droplet-generation/ Thanks, have a nice day! :)

@@elveflow thank you so much

Hello! Thanks for your question. Unfortunnately no, but it is possible with our Lipid Nanoparticle Synthesis Pack! (www.elveflow.com/microfluidic-products/microfluidics-application-packs/lipid-nanoparticle-synthesis/) This Pack includes all the parts needed to easily synthesize your lipid nanoparticles with high monodispersity, production rate and reproducibility for the optimal encapsulation of your mRNA or siRNA molecules. Feel free to contact our experts through our website! Have a nice day :)

Hello Hector Olivia, thanks for your interest! You can ask our experts by filling the form on this page: www.elveflow.com/microfluidic-products/microfluidics-flow-control-systems/ob1-pressure-controller/ They will be happy to help you! Have a nice day :)

Ohhh yes she is!!

Glad it helped! :) Feel free to visit our website www.elveflow.com or contact us (contact@elveflow.com) if you need anything! Have a good day

Hello! I think this review about Sperm Sorting wrote by our scientist Audrey could help you: www.elveflow.com/microfluidic-reviews/microfluidics-for-cell-biology/microfluidic-for-sperm-sorting-a-review/ Feel free to contact us if you have any questions: www.elveflow.com/contact/ Have a good day

Hello Hao Wang, thanks for your interest! You can use a compressor to supply pressure to your OB1 > www.elveflow.com/microfluidic-products/microfluidics-accessories/air-pressure-generator/ Feel free to contact us at contact@elveflow.com if you need help or advice :) Have a nice day!

Hello, you can also use our autonomous pump COBALT (www.elveflow.com/microfluidic-products/microfluidics-flow-control-systems/autonomous-vacuum-pressure-pumps/). Cobalt is the ideal benchtop companion. It is equipped with a pressure (and vacuum) source so it does not require an external compressor or laboratory gas supply. To learn more, you can also watch our unboxing video: czcams.com/video/FmJmNd5r1H0/video.html Have a good day, Marie from the Elveflow Team

@Audrey Nsamela Thanks so much!

Hello, thanks for your interest in Audrey's work, if you are interested in nanoparticle design & generation, here are two reviews that might be of interest to you: www.elveflow.com/microfluidic-reviews/general-microfluidics/microfluidic-nanoparticle-synthesis-short-review/ & www.elveflow.com/microfluidic-reviews/general-microfluidics/microfluidics-for-plga-nanoparticles-synthesis-a-review/

Hello, We have a lot of content about Droplets on our website, you can check our reviews: www.elveflow.com/microfluidic-reviews/droplet-digital-microfluidics/ If you don't find what you are looking for, feel free to contact us at contact@elveflow.com, our experts will be happy to help you! :)

Thank you Andrea, glad you liked it! Feel free to subscribe if you don't want to miss our next webinars :)

Hello Akshit, The surface functionalization of the microfluidic channel is tricky and it required a lot of tries to achieve a satisfactory bonding of the antibodies. We especially had trouble with PDMS and had better results on PMMA. We created a protocol with the help of the “Laboratoire de Réactivité de Surface (LRS)” in Sorbonne Université from their previous work (Hebner et al. (2014)). For the PDMS surface, you can activate using plasma for example. You can find more information about this part of my PhD project in my thesis “Contributions to an electromagnetic and microfluidic microsystem for immunological detection using magnetic nanoparticles” available on Researchgate. Benjamin Garlan

@@elveflow thank you so much for the detailed explanation. I will definitely check your thesis as well. Regards, Akshit

Thank you! You are right: it's better to say "only a few micrometers wide", my bad! :)

Thank you Ali! Feel free to share with those who may be interested 🤗

Thanks! Feel free to share with those who may be interested 🤗

Glad you like it! Thanks!

@Thomas Guerinier Thank you so much for your replay. I will be looking forward to it! Best wishes