Review—Wearable Biofuel Cells: Past, Present and Future

Abstract: The perspective article provides a detailed description of the major developments in the field of wearable biofuel cells. The article expounds several attributes of this newly emerging technology and its potential to address the energy needs of wearable devices. In addition to discussing important milestones reached in this field, the article also highlights the grand challenges that are presently hindering further development of wearable biofuel cells. Particular emphasis has been devoted to major issues rela… Show more

“…[24][25][26][27][28] However, with the increasing popularity of wearable electronics, there has been an increased interest in wearable biofuel cells, 29 including patches and contact lenses, which are discussed in this focus issue. From a fundamental electrochemistry perspective, this issue includes papers discussing up-and-coming cofactors, 30 new enzymes, 31 and new cascades of enzymes for deep oxidation.…”

Preface—JES Focus Issue on Biological Fuel Cells

“…[24][25][26][27][28] However, with the increasing popularity of wearable electronics, there has been an increased interest in wearable biofuel cells, 29 including patches and contact lenses, which are discussed in this focus issue. From a fundamental electrochemistry perspective, this issue includes papers discussing up-and-coming cofactors, 30 new enzymes, 31 and new cascades of enzymes for deep oxidation.…”

Preface—JES Focus Issue on Biological Fuel Cells

“…Researchers are moving forward to develop low-energy/low-power consuming electronics and high energy density power sources (Bandodkar, 2017;Dong et al, 2016). For instance, wearable electrochemical devices combine low-power requirements, feasibility of miniaturisation, simplicity, and low production costs .…”

“…Thin, flexible and stretchable devices containing biosensors or biological power sources have been developed ( Figure 17) and they count on several advantages when it comes to biodegradability and biocompatibility when compared with conventional batteries or fuel cells (Bandodkar, 2017).…”

“…Among the bioelectronics that are being designed and developed, wearable devices seem to be a convenient alternative, since they can be worn by the user with minimal invasion and no requirement of expertise skills (Bandodkar, 2017;Falk et al, 2012a;Katz et al, 2015;Willner and Katz, 2006).…”

“…wearable electronics (Bandodkar andWang, 2014, 2016; and biosolar cells (Somasundaran et al, 2011), the transparency of the EFC should be taken into account. The use of transparent conductive nanomaterials allows improving the aesthetic and cosmetic issues that are relevant in the case of smart electronic contact lenses ) and body-attachable wearable electronic platforms Trung et al, 2016).…”

Flexible and transparent biological electric power sources based on nanostructured electrodes

Engineering Architectures for Biofuel Cells