The continuous operation of wearable electronics demands reliable sources of energy,
currently met through Li‐ion batteries and various energy harvesters. These solutions are …

Conjugated polymers (CPs) possess a unique set of features setting them apart from other
materials. These properties make them ideal when interfacing the biological world …

Enzymatic biofuel cells are bioelectronic devices that utilize oxidoreductase enzymes to
catalyze the conversion of chemical energy into electrical energy. This review details the …

Synthesis gas (syngas) is a gas mixture consisting mainly of H 2, CO, and CO 2 and can be
derived from different sources, including renewable materials like lignocellulose. The …

In this review paper, the authors have presented a brief conceptual summary of the
applications of biofuel cell in general and enzymatic one in special with a short historical …

Wearable enzymatic biofuel cells would be the most prospective fuel cells for wearable
devices because of their low cost, compactness and flexibility. As the high specificity and …

In biosensors and biofuel cells, it is often desirable to accelerate the electron transfer rate
between the enzyme and electrode surface to improve the performance of the devices …

The past few decades have seen increasingly rapid advances in the field of sustainable
energy technologies. As a new bio‐and eco‐friendly energy source, enzymatic biofuel cells …

Ever-growing demands for energy, the unsustainability of fossil fuel due to its scarcity and
massive impact on global economies and the environment, have encouraged the research …

The fascinating electrochemical properties of the redox-active compound ferrocene have
inspired researchers across the globe to develop ferrocene-based electrocatalysts for a …