Ready-to-use 3D-printed electrochemical cell for in situ voltammetry of immobilized microparticles and Raman spectroscopy

Silveira, Géssica Domingos da; Quero, Reverson Fernandes; Bressan, Lucas Paines; Bonacin, Juliano Alves; Jesus, Dosil Pereira de; Silva, José Alberto Fracassi da

doi:10.1016/j.aca.2020.10.023

Cited by 16 publications

(4 citation statements)

References 24 publications

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“…Spectroelectrochemical cells were built with ABS using an FFF 3D printer and were used to study the structural changes of the Prussian Blue at different voltage bias (dos Santos et al, 2019), as well as to perform voltammetry of the immobilized microparticles (da Silveira et al, 2021).…”

Section: Other Electrochemical Cells and Electrodesmentioning

confidence: 99%

A 3D Printer Guide for the Development and Application of Electrochemical Cells and Devices

et al. 2021

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3D printing is a type of additive manufacturing (AM), a technology that is on the rise and works by building parts in three dimensions by the deposit of raw material layer upon layer. In this review, we explore the use of 3D printers to prototype electrochemical cells and devices for various applications within chemistry. Recent publications reporting the use of Fused Deposition Modelling (fused deposition modeling®) technique will be mostly covered, besides papers about the application of other different types of 3D printing, highlighting the advances in the technology for promising applications in the near future. Different from the previous reviews in the area that focused on 3D printing for electrochemical applications, this review also aims to disseminate the benefits of using 3D printers for research at different levels as well as to guide researchers who want to start using this technology in their research laboratories. Moreover, we show the different designs already explored by different research groups illustrating the myriad of possibilities enabled by 3D printing.

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Section: Other Electrochemical Cells and Electrodesmentioning

confidence: 99%

A 3D Printer Guide for the Development and Application of Electrochemical Cells and Devices

et al. 2021

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“…More recently, FDM was used to fabricate electrochemical cells that coupled voltammetry with Raman spectroscopy, where both sensing techniques offer complimentary information regarding the analyte. [242] Postprocessing of additively manufactured electrodes has been widely adopted as a strategy to enhance conductivity. Postprocessing of FDM parts has been applied for other applications, but here it can circumvent the issue of low solid loading of conductive fillers, whilst leveraging the advantages of FDM.…”

Section: (10 Of 26)mentioning

confidence: 99%

Additive Manufacturable Materials for Electrochemical Biosensor Electrodes

Elbadawi

Ong

Pollard

et al. 2020

Adv Funct Materials

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With the impending Industrial Revolution 4.0, the information produced by sensors will be central in many applications. This includes the healthcare sector, where affordable healthcare and precision medicine are highly sought after. Electrochemical sensors have the potential to produce affordable, high sensitivity and specificity, intuitive, and rapid point‐of‐care diagnostics. Underpinning these achievements is the choice of material and the fabrication thereof. In this review, the different types of materials used in electrochemical biosensors are reported, with a focus on synthetic conductive materials. The review demonstrates that there is an abundance of materials to select from, and compositing different types of materials further widens their applicability in biosensors. In addition, the fabrication of such materials using the state‐of‐the‐art of fabrication technology, additive manufacturing (AM), is also detailed. The need for compositing is evident in AM, as the feedstock for certain AM technologies is inherently nonconductive. Both material choice and fabrication technologies limitations are also discussed to highlight opportunities for growth. The review highlights how recent technological advancements have the potential to drive the healthcare industry toward achieving its primary goals.

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“…Additive manufacturing (AM)/3D-printing has become recently popular in research due to its ability to create intricate designs, quick and affordable prototyping turnaround, and its bespoke capabilities. In electrochemistry research, additive manufacturing has been reported for the production of tailored cell designs, 1,2 flow cells, 3 thermal sensing, 4,5 fully printed all-in-one setups 6,7 and many others. Most of the work regarding the manufacture of tailored electrodes has been focusing on fused filament fabrication (FFF) methods, which allows a very affordable point of entry, low-waste and rapid prototypings.…”

Section: Introductionmentioning

confidence: 99%

Exploration of defined 2-dimensional working electrode shapes through additive manufacturing

Ferrari

Hurst

Bernalte

et al. 2022

Analyst

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Ready-to-use 3D-printed electrochemical cell for in situ voltammetry of immobilized microparticles and Raman spectroscopy

Cited by 16 publications

References 24 publications

A 3D Printer Guide for the Development and Application of Electrochemical Cells and Devices

A 3D Printer Guide for the Development and Application of Electrochemical Cells and Devices

Additive Manufacturable Materials for Electrochemical Biosensor Electrodes

Exploration of defined 2-dimensional working electrode shapes through additive manufacturing

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