A close up of our 3d printed microfluidic channels showing the reflection of light. These are smooth, clear and biocompatible.
Skyphos devices are isotropic, there is no bond because the microfluidic chips are all one material. 300 micron wide channels with grid array behind them. Viewed from an inverted microscope – these are glass clear devices.
This is an array of 20 mm diameter pillars, at 200 mm height, 80 mm spacing at 20 mm offsets. It was 3D printed from biocompatible resins. Skyphos does not need molds, or masks to convert your drawing into a microfluidic device.
Skyphos has developed the most advanced set of tuning algorithms for ultra-high resolution. There is no indication of layer lines, because it was done in a single exposure.
In a 3D print, Skyphos can reproduce layer heights between 1 micron and 2 mm while controlling the cure-depth, allowing for unrivaled surfaces and 3-dimensional features.
1000 micron spheres, these are to resemble grains of sand for carbon reclamation studies in the oil and gas industry as part of an NSF grant. We can see a few layers from the 50 micron exposure heights.
Cross flow chip with 100 um x 150 and 100x500 channels. A small 250 um via to another layer of the device is visible. No layer lines and smooth walls thanks to the Gillespie Algorithms.
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An image of cross channels with the radiused transition from floor to walls. 300 um wide, 150 um tall. with 150 um radius transition