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 …

Single-entity electrochemistry (SEE) describes a recent trend in state-of-the-art
electrochemistry applied to the study of individual “things.” Conceptually, SEE covers …

Continuous and real‐time sensoring has received much attention in biomarker monitoring,
toxicity assessment, and therapeutic agent tracking. However, its on‐site application is …

Making a measurement over millions of nanoparticles or exposed crystal facets seldom
reports on reactivity of a single nanoparticle or facet, which may depart drastically from …

Homogeneous immunoassays represent an attractive alternative to traditional
heterogeneous assays due to their simplicity and high efficiency. Homogeneous …

We present a comprehensive guide to nano-impact experiments, in which we introduce
newcomers to this rapidly-develo** field of research. Central questions are answered …

Single-molecule biosensors serve the unmet need for real time detection of individual
biological molecules in the molecular crowd with high specificity and accuracy, uncovering …

Although the term 'confinement'regularly appears in electrochemical literature, elevated by
continuous progression in the research of nanomaterials and nanostructures, up until today …

Several three-terminal organic bioelectronic structures have been proposed so far to
address the needs for a variety of biosensing applications. The most popular ones utilized …

The structure–function relationship of plasmon‐enhanced electrochemistry (PEEC) is of
great importance for the design of efficient PEEC catalysts, but is rarely investigated at single …