“…Screen printing is favorable because it can be performed on a diverse array of substrate materials, including plastic, polymers, 23 ceramic and paper, while allowing for versatility in electrode design. 24–28 Screen printed electrodes are highly reproducible and readily mass-produced. 24…”
Section: Screen Printed Gold Electrodesmentioning
confidence: 99%
“…Screen printing is favorable because it can be performed on a diverse array of substrate materials, including plastic, polymers, 23 ceramic and paper, while allowing for versatility in electrode design. [24][25][26][27][28] Screen printed electrodes are highly reproducible and readily mass-produced. 24 SPE surfaces can be functionalized to make immuno, genetic, and enzymatic sensors, demonstrating their versatility and suitability for biosensor construction.…”
Conventional gold electrode fabrication is too costly and laborious for implementation in low-resource settings (LRS). We review affordable, simple alternative fabrication methods, highlighting gold leaf electrodes, for LRS applications.
“…Screen printing is favorable because it can be performed on a diverse array of substrate materials, including plastic, polymers, 23 ceramic and paper, while allowing for versatility in electrode design. 24–28 Screen printed electrodes are highly reproducible and readily mass-produced. 24…”
Section: Screen Printed Gold Electrodesmentioning
confidence: 99%
“…Screen printing is favorable because it can be performed on a diverse array of substrate materials, including plastic, polymers, 23 ceramic and paper, while allowing for versatility in electrode design. [24][25][26][27][28] Screen printed electrodes are highly reproducible and readily mass-produced. 24 SPE surfaces can be functionalized to make immuno, genetic, and enzymatic sensors, demonstrating their versatility and suitability for biosensor construction.…”
Conventional gold electrode fabrication is too costly and laborious for implementation in low-resource settings (LRS). We review affordable, simple alternative fabrication methods, highlighting gold leaf electrodes, for LRS applications.
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