Papers by Scott Adams
A number of methods have been used to make electronic medical microdevices biocompatible. This pa... more A number of methods have been used to make electronic medical microdevices biocompatible. This paper presents a novel approach for design and fabrication of biocompatible silicone enclosures for implantable medical microdevices. The approach involves design and formation of a 3D model of the enclosure using a computer-aided design software tool, followed by 3D printing of the enclosures using a bioplotter. Three different implantable enclosure designs are presented. The fabrication of the three enclosures is given. An evaluation of the suitability of the enclosures for implantation of a deep brain stimulation microdevice is discussed through submersion and operation tests. The evaluation results are presented and discussed.
This paper discusses design and fabrication processes in the development of a wearable and flexib... more This paper discusses design and fabrication processes in the development of a wearable and flexible conductive resistive sensor. The design and development of the sensor involve the use of SnAg -Cu (SAC) plated Nylon fabric, precision fused deposition modeling (FDM) using silicone and petrolatum for etch-resistant masks using the EnvisionTEC GmbH Bioplotter, and wet etching using Chromium, Ammonium Persulphate, and Salt-Vinegar etching solutions. Preliminary testing with other mask types, development processes, and sensor design approaches for various applications are discussed.
inproceedings by Scott Adams
articles by Scott Adams
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Papers by Scott Adams
inproceedings by Scott Adams
articles by Scott Adams