@@qtodap Recently my university reorganized their webpages, including mine. It is currently unavailable at that link (I removed it from the description). Email me and I can send it to you.
So interesting! and special thanks to you for uploading such a useful video. I wonder if there is a chance that you could upload the .ppt file as well.
This is a good comment, there is definitely a challenge with crossing that bridge into commercial applications. Look at the video section "applications and commercial products", starting at about 57:30 is when commercial products are discussed. I believe its applications for biological cells has been demonstrated, but many laboratory platforms are designed for specific purposes (ex: specific media, specific cell types, etc.). I think platforms can be targeted for a certain cell if designed appropriately. Cells may also need to be suspended in media that they are not used to (ex: low conductivity media), even if it's for a short period of time. Nanoparticles (< 50 nm) is a different challenge. The 'easy' approach is to make nanoelectrodes or nanometer features. However, in my opinion, electrohydrodynamics will be present to. Again, careful design needs to be considered. Throughput, whether for nanoparticles or bioparticles, is also an ongoing challenge. Advances in 3D electrodes and other complex 3D structures is overcoming that challenge. I welcome discussions and am always looking for creative applications of DEP - feel free to reach out and we can talk!
hi Stewart , nice presentation , kindly can you please let me know any good reference in order to understand DEP and Electroomotic effects please? just to let you know that my physics and mathematics background is very limited . Thank you
Thank you very much for this informative lecture! I am a graduate student in the field of Microfluidics and I was hoping you can send me the .ppt file just like Shahriar asked :)
I added a link to a downloadable PDF file of the presentation which can be found in the video description.
hi, I need the file but your link is not working, how can I have the file? Thanks
@@qtodap Recently my university reorganized their webpages, including mine. It is currently unavailable at that link (I removed it from the description). Email me and I can send it to you.
I’d like this too please! Part of my thesis.
So interesting! and special thanks to you for uploading such a useful video. I wonder if there is a chance that you could upload the .ppt file as well.
thank you so much! this helped me a lot! please keep the lectures coming
great explanation , thank you 🙏
Awesome video and great presentation. How close is this technology being commercialized for nanoparticles and bioparticles?
This is a good comment, there is definitely a challenge with crossing that bridge into commercial applications. Look at the video section "applications and commercial products", starting at about 57:30 is when commercial products are discussed.
I believe its applications for biological cells has been demonstrated, but many laboratory platforms are designed for specific purposes (ex: specific media, specific cell types, etc.). I think platforms can be targeted for a certain cell if designed appropriately. Cells may also need to be suspended in media that they are not used to (ex: low conductivity media), even if it's for a short period of time.
Nanoparticles (< 50 nm) is a different challenge. The 'easy' approach is to make nanoelectrodes or nanometer features. However, in my opinion, electrohydrodynamics will be present to. Again, careful design needs to be considered.
Throughput, whether for nanoparticles or bioparticles, is also an ongoing challenge. Advances in 3D electrodes and other complex 3D structures is overcoming that challenge.
I welcome discussions and am always looking for creative applications of DEP - feel free to reach out and we can talk!
hi Stewart , nice presentation , kindly can you please let me know any good reference in order to understand DEP and Electroomotic effects please? just to let you know that my physics and mathematics background is very limited . Thank you
Thank you very much for this informative lecture! I am a graduate student in the field of Microfluidics and I was hoping you can send me the .ppt file just like Shahriar asked :)
😮