Abstract Electrolyte-gated transistors (EGTs), capable of transducing biological and
biochemical inputs into amplified electronic signals and stably operating in aqueous …

Recent advances in flexible and stretchable electronics (FSE), a technology diverging from
the conventional rigid silicon technology, have stimulated fundamental scientific and …

Printable electronics present a new era of wearable electronic technologies. Detailed
technologies consisting of novel ink semiconductor materials, flexible substrates, and …

Most methods for the detection of nucleic acids require many reagents and expensive and
bulky instrumentation. Here, we report the development and testing of a graphene-based …

Single-atom catalysts represent a unique catalytic system with high atomic utilization and
tunable reaction pathway. Despite current successes in their optimization and tailoring …

The strong and controllable chemical sensitivity of organic semiconductors (OSCs) and the
amplification capability of transistors in circuits make use of OSC-based field-effect …

Conspectus The rise of organic bioelectronics efficiently bridges the gap between
semiconductor devices and biological systems, leading to flexible, lightweight, and low-cost …

Meeting the increasing demand for sensors with high sensitivity, high selectivity, and rapid
detection presents many challenges. In the last decade, electronic sensors based on field …

Graphene field-effect transistors (GFETs) are emerging as bioanalytical sensors, in which
their responsive electrical conductance is used to perform quantitative analyses of …

Bioelectronic transducing surfaces that are nanometric in size have been the main route to
detect single molecules. Though enabling the study of rarer events, such methodologies are …