Nichols, 1992 - Google Patents
Encapsulation for implanted integrated circuits: a biomedical application of vacuum deposited organic thin filmsNichols, 1992
- Document ID
- 7394210379338942891
- Author
- Nichols M
- Publication year
External Links
Snippet
Presently, there exists a need for totally implanted intelligent devices which are scaled to the dimensions of the anatomical analogues that they are to assist, measure, or replace. Size constraints prohibit the application of conventional encapsulation techniques of sealing in …
- 238000005538 encapsulation 0 title abstract description 34
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Jo et al. | Biocompatible and biodegradable organic transistors using a solid‐state electrolyte incorporated with choline‐based ionic liquid and polysaccharide | |
| Bowman et al. | The packaging of implantable integrated sensors | |
| Xie et al. | Long-Term Bilayer Encapsulation Performance of Atomic Layer Deposited Al $ _ {\bf 2} $ O $ _ {\bf 3} $ and Parylene C for Biomedical Implantable Devices | |
| CN106659895B (en) | Polymer Feedthroughs for Chronic Implantable Devices | |
| WO2017218561A1 (en) | Methods for plasma depositing polymers comprising cyclic siloxanes and related compositions and articles | |
| US5755759A (en) | Biomedical device with a protective overlayer | |
| US6773429B2 (en) | Microchip reservoir devices and facilitated corrosion of electrodes | |
| US5271820A (en) | Solid state pH sensor | |
| Gwon et al. | Mechanical interlocking to improve metal–polymer adhesion in polymer-based neural electrodes and its impact on device reliability | |
| JPH03195961A (en) | Solid state ph sensor | |
| EP0114077A2 (en) | Gas sensor | |
| TW509791B (en) | Humidity sensor element and method for manufacture the same | |
| Hianik et al. | Electrostriction of lipid bilayers on a solid support. Influence of hydrocarbon solvent and dc voltage | |
| US8295929B2 (en) | Glass feedthrough assemblies for implantable medical devices | |
| Vanhaverbeke et al. | Comparison of copper electroplating, copper wet etching and linear sweep voltammetry as techniques to investigate the porosity of atomic layer deposited Al2O3 | |
| Nichols | Encapsulation for implanted integrated circuits: a biomedical application of vacuum deposited organic thin films | |
| US20230113727A1 (en) | An Implantable Electrical Device Comprising a Substrate, Encapsulation Layer and Adhesion Layer | |
| Xie et al. | Atomic layer deposited Al 2 O 3 and parylene C dual-layer encapsulation for biomedical implantable devices | |
| JP2003262600A (en) | Humidity sensor element and method of manufacturing the same | |
| US11261345B2 (en) | Hydrolytically stable polymers, method of synthesis thereof and use in bio-electronic devices | |
| KR20240006316A (en) | Ion gel system for humidity-independence, and method of preparing same | |
| AU636037B2 (en) | A reference electrode for chemical sensors | |
| Shah Idil et al. | On the stability of silicone-encapsulated CMOS ICs for active implantable devices: 4.3 years of accelerated life testing | |
| Hambrecht | Biomaterials research in neural prostheses | |
| JP3207476B2 (en) | Bilayer film fabrication substrate |