Abstract: Various methods of manufacture can produce three-dimensional, high density, high-electrode probe arrays that can advantageously be used in neural-based applications. In one example, deep reactive ion etched (DRIE) ultra-high aspect ratio holes are etched in silicon and refilled with multiple films to a high density array of individual probes, each probe having individual recording and/or stimulation sites or tips. Using a DRIE lag effect technique can help control tip sharpness and electrode length, allowing for narrow, long, and dense needles to be formed side-by-side in a single array. In some examples, multimodal probe arrays are manufactured, with some probes having a recording/stimulating site, other probes having a waveguide, and yet other probes having a microfluidic channel.

Abstract: A micropump assembly is comprised of modular stacked pump stages. The modular pump stages are preferably stacked vertically on top of each other. The stacked design allows each pumping chamber to be compressed by two pumping membranes and thereby provide twice the compression as compared to conventional planar pump designs. The stacked design also eliminates the need for bidirectional movement of the pumping membrane. Lastly, the number of stacked pumping stages can be changed post-fabrication to achieve the required pressure for a given application.

Abstract: Various methods of manufacture can produce three-dimensional, high density, high-electrode probe arrays that can advantageously be used in neural-based applications. In one example, deep reactive ion etched (DRIE) ultra-high aspect ratio holes are etched in silicon and refilled with multiple films to a high density array of individual probes, each probe having individual recording and/or stimulation sites or tips. Using a DRIE lag effect technique can help control tip sharpness and electrode length, allowing for narrow, long, and dense needles to be formed side-by-side in a single array. In some examples, multimodal probe arrays are manufactured, with some probes having a recording/stimulating site, other probes having a waveguide, and yet other probes having a microfluidic channel.

Abstract: A micropump assembly is comprised of modular stacked pump stages. The modular pump stages are preferably stacked vertically on top of each other. The stacked design allows each pumping chamber to be compressed by two pumping membranes and thereby provide twice the compression as compared to conventional planar pump designs. The stacked design also eliminates the need for bidirectional movement of the pumping membrane. Lastly, the number of stacked pumping stages can be changed post-fabrication to achieve the required pressure for a given application.