integration of 3D printed components with nanosensor technology .
The fabrication of 200µm width active flow micro-channels by 3D printing methods is an essential component that enables the examination of micro-litre quantities of bodily fluid in non-invasive diagnostic devices. By flexographically printing metal contacts onto 3D printed devices, we were able to subsequently integrate it with a nanosensor chip.
it looks like this-![](https://lh3.googleusercontent.com/blogger_img_proxy/AEn0k_tHrxykcktzHKhk02KFoaCyjyu1JXAn98-1U_Qi3jLNvow56QdMpnY-0wAFzh8pyFw3xU3g4_Qh783wr-6TC6JWEGqZesJCbzCQbouIOZ2jHcT8JdJJ-gE7fWY=s0-d)
what is the advantage of 3Dprinting?
Using 3D printed polymers offers a straightforward, cost effective and rapid means towards the development of novel microfluidic devices,which can lead to inexpensive methods for screening disease biomarkers on larger scale@ cheapest cost.
The fabrication of 200µm width active flow micro-channels by 3D printing methods is an essential component that enables the examination of micro-litre quantities of bodily fluid in non-invasive diagnostic devices. By flexographically printing metal contacts onto 3D printed devices, we were able to subsequently integrate it with a nanosensor chip.
it looks like this-
what is the advantage of 3Dprinting?
Using 3D printed polymers offers a straightforward, cost effective and rapid means towards the development of novel microfluidic devices,which can lead to inexpensive methods for screening disease biomarkers on larger scale
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