Safe storage of biological samples is a cornerstone of successful research projects and clinical trials. However, challenges abound in keeping samples safe, properly preserved, and organized.

Microfluidics refers to the manipulation of fluids in microscale devices. Commonly called "labs on a chip," microfluidic systems are used to study and analyze very small-scale chemical or biological ...

GERMANTOWN, Md. & HILDEN, Germany--(BUSINESS WIRE)--QIAGEN N.V. (NYSE: QGEN; Frankfurt Prime Standard: QIA) today announced that the number of biological samples processed with consumables kits has ...

AFM-IR spectroscopy, also known as nanoscale IR spectroscopy, has an ever growing list of application areas, including in microelectronics, pharmaceutical science, polymer characterization and life ...

Aristotle’s postulate that “nature abhors a vacuum” could be used to explain why X-ray photoelectron spectroscopy (XPS) has not found routine application in the analysis of biological samples. The ...

Separating single cells from their sample matrix without compromising cell integrity is a balancing act. Single cell RNA sequencing (scRNA-seq) is very sensitive to degradation caused during sample ...

In this interview, we talk to Alex de Marco, an Associate Professor at Monash University, about the correlative use of light and electron microscopy in the study of biological samples, as well as the ...

Microplastics, pervasive in both terrestrial and aquatic environments, have been found in diverse organisms, from fish and plants to humans. Traditional imaging techniques, such as fluorescence and ...

Researchers have developed a novel technology that allows the distribution of components within a single cell to be accurately detected and visualized. Positioning a t-SPESI (tapping-mode scanning ...