Materials patterned with high‐aspect‐ratio nanostructures have features on similar length
scales to cellular components. These surfaces are an extreme topography on the cellular …

Mild traumatic brain injuries (mTBIs) are the most common type of brain injury. Timely
diagnosis of mTBI is crucial in making'go/no-go'decision in order to prevent repeated injury …

Electrode-based impedance and electrochemical measurements can provide cell-biology
information that is difficult to obtain using optical-microscopy techniques. Such electrical …

Multi-electrode arrays, both active or passive, emerged as ideal technologies to unveil
intricated electrophysiological dynamics of cells and tissues. Active MEAs, designed using …

Electrode-to-cell/tissue interfaces with high biocompatibility, low impedance, and long-term
chemical and mechanical stability are of paramount importance in numerous biological and …

Since the field's inception, pioneers in microfluidics have made significant progress towards
realizing complete lab-on-chip systems capable of sophisticated sample analysis and …

The paper presents a 256-pixel CMOS sensor array with in-pixel dual electrochemical and
impedance detection modalities for rapid, multi-dimensional characterization of …

Miniaturized laboratories on chip platforms play an important role in handling life sciences
studies. The platforms may contain static or dynamic biological cells. Examples are a fixed …

Precision metabolomics and quantification for cost-effective rapid diagnosis of disease are
the key goals in personalized medicine and point-of-care testing. At present, patients are …

This article presents a fully integrated multi-modal CMOS cellular sensor/stimulator array
chip with 21 952 pixels and 1568-pixel concurrent readouts, while each array pixel can be …