A facile technique to develop conductive paper based bioelectrodes for microbial fuel cell applications

Jayapiriya, U S; Inoue, Shuhei; Goel, Sanket

doi:10.1016/j.bios.2022.114479

Cited by 2 publications

(1 citation statement)

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“…As a result, this miniaturized MFC achieved a maximum power density of 192 μW cm −2 and a maximum current density of 1.3 mA cm −2 . Furthermore, consistent power generation was observed where repeatable voltage production of 410 mV was recorded, proving that the 3D printed enclosure possessed excellent stability [29]. This means that the enclosure could be reused by just replacing the electrodes on both terminals, thereby providing a cost-effective solution.…”

Section: D Printed Mfc Reactor Bodiesmentioning

confidence: 54%

3D Printing in Microbial Fuel Cell

Yow Zhong Yeo,

Balachandran,

Ibrahim

et al. 2024

Revolutionizing Energy Conversion - Photoelectrochemical Technologies and Their Role in Sustainability

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The rise of additive manufacturing (AM), commonly known as 3D printing (3DP), is attributed to its ability to fabricate complex 3D structures swiftly and accurately from computer-aided design (CAD) models with minimal labor involvement. Given the heightened popularity in 3DP, researchers have explored its potential in microbial fuel cell (MFC) technology, utilizing it for the production of various MFC elements such as reactor bodies, separators, and membranes. Over the last decade, innovative electrode designs and cell arrangements have emerged, contributing to the enhanced performance of MFCs. This is largely owing to the capability of 3DP, allowing for individual optimization of each MFC component by facilitating independent design for reactors and components. Moreover, a significant attribute of 3DP technology lies in its consistent production capabilities, enabling the scalability of MFC systems by creating multiple stacks of MFC units while ensuring minimal material wastage and eliminating human errors. The forthcoming book chapter discusses the application of 3DP in MFCs.

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Section: D Printed Mfc Reactor Bodiesmentioning

confidence: 54%