2021
DOI: 10.1016/j.microc.2021.106324
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3D-printing in forensic electrochemistry: Atropine determination in beverages using an additively manufactured graphene-polylactic acid electrode

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Cited by 34 publications
(13 citation statements)
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“…The 3D printed parts can be conductive by embedding conductive metals or carbon-based nanomaterials in the filament. [79] This is useful for example for making electromagnetic devices, [80] (electrochemical) sensors, [81][82][83][84] circuits, [85,86] electrochemical cells, [87,88] and even batteries. [89] The possibility of designing and printing different shapes is also useful for changing the aspect ratio of the 3D printed object, or to print objects with high surface area for analytical separation, membranes, and molecule capture.…”
Section: Phase Three: Make Your Own Materialsmentioning
confidence: 99%
See 1 more Smart Citation
“…The 3D printed parts can be conductive by embedding conductive metals or carbon-based nanomaterials in the filament. [79] This is useful for example for making electromagnetic devices, [80] (electrochemical) sensors, [81][82][83][84] circuits, [85,86] electrochemical cells, [87,88] and even batteries. [89] The possibility of designing and printing different shapes is also useful for changing the aspect ratio of the 3D printed object, or to print objects with high surface area for analytical separation, membranes, and molecule capture.…”
Section: Phase Three: Make Your Own Materialsmentioning
confidence: 99%
“…The 3D printed parts can be conductive by embedding conductive metals or carbon‐based nanomaterials in the filament. [ 79 ] This is useful for example for making electromagnetic devices, [ 80 ] (electrochemical) sensors, [ 81–84 ] circuits, [ 85,86 ] electrochemical cells, [ 87,88 ] and even batteries. [ 89 ]…”
Section: Phase Three: Make Your Own Materialsmentioning
confidence: 99%
“…The 3D printed parts can be conductive by embedding conductive metals or carbon-based nanomaterials in the filament. [78] This is useful for example for making electromagnetic devices, [79] (electrochemical) sensors, [80][81][82][83] circuits, [84,85] electrochemical cells, [86,87] and even batteries. [88] The possibility of designing and printing different shapes is also useful for changing the aspect ratio of the 3D printed object, or to print objects with high surface area for analytical separation, membranes, and molecule capture.…”
Section: Phase 3: Materialsmentioning
confidence: 99%
“…The 3D printed parts can be conductive by embedding conductive metals or carbon-based nanomaterials in the filament. [69] This is useful for example for making electromagnetic devices, [70] (electrochemical) sensors, [71][72][73][74] circuits, [75,76] electrochemical cells, [77,78] and even batteries. [79] The possibility of designing and printing different shapes is also useful for changing the aspect ratio of the 3D printed object, or to print objects with high surface area for analytical separation, membranes, and molecule capture.…”
Section: Phase 3: Materialsmentioning
confidence: 99%