Background Microfluidic devices have evolved into low-cost, simple, and powerful analytical
tool platforms. Herein, an electrochemically-based microfluidic nanobiosensor array for …

Electrochemical impedance spectroscopy (EIS) is a powerful probe of the processes taking
place at an electrode. Depending on frequency, it is sensitive to the solid-liquid interface as …

Nanobubbles (NBs) in water have been proven to improve plant growth and seed
germination, potentially reducing both water and fertilizer consumption. To unravel the …

Traditional single-point measurements fail to capture dynamic chemical responses of plants,
which are complex, nonequilibrium biological systems. We report TETRIS (t ime-resolved e …

Bioelectricity is a promising alternative renewable energy source that can be produced from
live plants and trees. However, previous experimental studies mostly applied non …

Geoelectrical methods are increasingly used to investigate soil‐plant interactions in an
agricultural context. For this, it is essential to quantify root electrical properties, since they …

Drought stress presents a significant threat to the growth and development of maize. It is
important to study the genes and mechanisms that contribute to drought tolerance. In this …

Background The measurement of root dielectric response is a useful non-destructive method
to evaluate root growth and function. Previous studies tracked root development throughout …

Parkinson's disease is a neurodegenerative condition defined by the progressive death of
dopaminergic neurons in the brain. The diagnosis of Parkinson's disease often uses time …

While pyrolyzed paper (PP) is a green and abundant material that can provide
functionalized electrodes with wide detection windows for a plethora of targets, it poses long …