This study numerically investigates current density and fuel concentration on the
performance of microfluidic fuel cells that breathe air as an oxidant. The microfluidic fuel …

Air-cathode microfluidic fuel cells are promising micro-scale power sources that
unfortunately undergo substantial performance loss at the cathode. This study therefore …

In this work, an experimental microfluidic fuel cell is presented with a novel up-scaled
porous electrode architecture that provides higher available surface area compared to …

A 3-D model is established by considering mass transport phenomena, electrochemical
reactions, electrode porosity, air breathing at the cathode, electrodes properties, fluid density …

This work numerically investigated the effects of various factors on the performance of air‐
breathing direct formic acid microfluidic fuel cells. An MFC with a microchannel width of 1.5 …

In this work, a design optimization study was conducted to improve the performance of a
membraneless microfluidic fuel cell with a double-bridge cross-section of the flow channel …

A laminar flow micro fuel cell comprising of bridge-shaped microchannel is investigated to
find out the effects of the cross-section shape of the microchannel on the performance. A …

Integrated microfluidic power generation and power delivery promises to be a disruptive
packaging technology with the potential to combat dark silicon. It essentially consists of …

The operation of a laminar flow fuel cell (LFFC) involves complex interplay between various
mass and electrochemical transport processes. Hence, to better design and more accurately …

A double-bridge shape is proposed as a novel flow channel cross-sectional shape of a
membraneless microfluidic fuel cell, and its electrochemical performance was analyzed with …