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Proof of Concept for Sustainable Manufacturing of Neural Electrode Array for In Vivo Recording
by
Chang, Ching-Wen
, Li, Szu-Ying
, Chen, Bo-Wei
, Lo, Yu-Chun
, Wu, Yen-Ting
, Hsieh, Fu-Yu
, Chen, You-Yin
, Tseng, Hsin-Yi
, Li, Ssu-Ju
, Lai, Yan-Bo
, Chen, Po-Chun
, Liu, Ta-Chung
, Shao, Huai-Hsuan
, Yang, Yi
in
3-D printers
/ Alzheimer's disease
/ Arrays
/ Biocompatibility
/ Biosensors
/ Brain research
/ Carbon dioxide
/ carbon footprint
/ Cleanrooms
/ CMOS
/ Complementary metal oxide semiconductors
/ Complexity
/ Design
/ Electrodes
/ Electronic devices
/ Electronic equipment
/ Electronic implants
/ Electronics industry
/ Electroplating
/ Emissions
/ Energy consumption
/ Environmental aspects
/ Environmental degradation
/ fabless manufacturing
/ Greenhouse gases
/ Implantation
/ Innovations
/ Insulation
/ Integrated circuit fabrication
/ Integrated circuits
/ laser etching
/ Laser machining
/ Lasers
/ Manufacturing
/ Manufacturing industry
/ Mass production
/ Materials
/ Methods
/ Microelectrodes
/ Micromachining
/ neural electrode array
/ Neural prostheses
/ Neurosciences
/ Photolithography
/ Recording
/ Silicon
/ Silver
/ Substrates
/ Sustainable development
/ Sustainable production
/ Transplants & implants
2023
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Proof of Concept for Sustainable Manufacturing of Neural Electrode Array for In Vivo Recording
by
Chang, Ching-Wen
, Li, Szu-Ying
, Chen, Bo-Wei
, Lo, Yu-Chun
, Wu, Yen-Ting
, Hsieh, Fu-Yu
, Chen, You-Yin
, Tseng, Hsin-Yi
, Li, Ssu-Ju
, Lai, Yan-Bo
, Chen, Po-Chun
, Liu, Ta-Chung
, Shao, Huai-Hsuan
, Yang, Yi
in
3-D printers
/ Alzheimer's disease
/ Arrays
/ Biocompatibility
/ Biosensors
/ Brain research
/ Carbon dioxide
/ carbon footprint
/ Cleanrooms
/ CMOS
/ Complementary metal oxide semiconductors
/ Complexity
/ Design
/ Electrodes
/ Electronic devices
/ Electronic equipment
/ Electronic implants
/ Electronics industry
/ Electroplating
/ Emissions
/ Energy consumption
/ Environmental aspects
/ Environmental degradation
/ fabless manufacturing
/ Greenhouse gases
/ Implantation
/ Innovations
/ Insulation
/ Integrated circuit fabrication
/ Integrated circuits
/ laser etching
/ Laser machining
/ Lasers
/ Manufacturing
/ Manufacturing industry
/ Mass production
/ Materials
/ Methods
/ Microelectrodes
/ Micromachining
/ neural electrode array
/ Neural prostheses
/ Neurosciences
/ Photolithography
/ Recording
/ Silicon
/ Silver
/ Substrates
/ Sustainable development
/ Sustainable production
/ Transplants & implants
2023
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Proof of Concept for Sustainable Manufacturing of Neural Electrode Array for In Vivo Recording
by
Chang, Ching-Wen
, Li, Szu-Ying
, Chen, Bo-Wei
, Lo, Yu-Chun
, Wu, Yen-Ting
, Hsieh, Fu-Yu
, Chen, You-Yin
, Tseng, Hsin-Yi
, Li, Ssu-Ju
, Lai, Yan-Bo
, Chen, Po-Chun
, Liu, Ta-Chung
, Shao, Huai-Hsuan
, Yang, Yi
in
3-D printers
/ Alzheimer's disease
/ Arrays
/ Biocompatibility
/ Biosensors
/ Brain research
/ Carbon dioxide
/ carbon footprint
/ Cleanrooms
/ CMOS
/ Complementary metal oxide semiconductors
/ Complexity
/ Design
/ Electrodes
/ Electronic devices
/ Electronic equipment
/ Electronic implants
/ Electronics industry
/ Electroplating
/ Emissions
/ Energy consumption
/ Environmental aspects
/ Environmental degradation
/ fabless manufacturing
/ Greenhouse gases
/ Implantation
/ Innovations
/ Insulation
/ Integrated circuit fabrication
/ Integrated circuits
/ laser etching
/ Laser machining
/ Lasers
/ Manufacturing
/ Manufacturing industry
/ Mass production
/ Materials
/ Methods
/ Microelectrodes
/ Micromachining
/ neural electrode array
/ Neural prostheses
/ Neurosciences
/ Photolithography
/ Recording
/ Silicon
/ Silver
/ Substrates
/ Sustainable development
/ Sustainable production
/ Transplants & implants
2023
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Proof of Concept for Sustainable Manufacturing of Neural Electrode Array for In Vivo Recording
Journal Article
Proof of Concept for Sustainable Manufacturing of Neural Electrode Array for In Vivo Recording
2023
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Overview
Increasing requirements for neural implantation are helping to expand our understanding of nervous systems and generate new developmental approaches. It is thanks to advanced semiconductor technologies that we can achieve the high-density complementary metal-oxide-semiconductor electrode array for the improvement of the quantity and quality of neural recordings. Although the microfabricated neural implantable device holds much promise in the biosensing field, there are some significant technological challenges. The most advanced neural implantable device relies on complex semiconductor manufacturing processes, which are required for the use of expensive masks and specific clean room facilities. In addition, these processes based on a conventional photolithography technique are suitable for mass production, which is not applicable for custom-made manufacturing in response to individual experimental requirements. The microfabricated complexity of the implantable neural device is increasing, as is the associated energy consumption, and corresponding emissions of carbon dioxide and other greenhouse gases, resulting in environmental deterioration. Herein, we developed a fabless fabricated process for a neural electrode array that was simple, fast, sustainable, and customizable. An effective strategy to produce conductive patterns as the redistribution layers (RDLs) includes implementing microelectrodes, traces, and bonding pads onto the polyimide (PI) substrate by laser micromachining techniques combined with the drop coating of the silver glue to stack the laser grooving lines. The process of electroplating platinum on the RDLs was performed to increase corresponding conductivity. Sequentially, Parylene C was deposited onto the PI substrate to form the insulation layer for the protection of inner RDLs. Following the deposition of Parylene C, the via holes over microelectrodes and the corresponding probe shape of the neural electrode array was also etched by laser micromachining. To increase the neural recording capability, three-dimensional microelectrodes with a high surface area were formed by electroplating gold. Our eco-electrode array showed reliable electrical characteristics of impedance under harsh cyclic bending conditions of over 90 degrees. For in vivo application, our flexible neural electrode array demonstrated more stable and higher neural recording quality and better biocompatibility as well during the 2-week implantation compared with those of the silicon-based neural electrode array. In this study, our proposed eco-manufacturing process for fabricating the neural electrode array reduced 63 times of carbon emissions compared to the traditional semiconductor manufacturing process and provided freedom in the customized design of the implantable electronic devices as well.
Publisher
MDPI AG,MDPI
Subject
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