Poly(dimethylsiloxane) (PDMS) is likely the most popular material for microfluidic devices in lab-on-a-chip and other biomedical applications. However, the hydrophobicity of PDMS leads to non-specific ...

Accurate risk assessment in drug development is crucial, as conventional in vitro and in vivo models often fail to predict human-specific responses. Organs on chips offer a promising alternative, but ...

Researchers at Toyohashi University of Technology in Japan, in collaboration with the Institute of Translational Medicine and Biomedical Engineering (IMTIB) in Argentina and the Indian Institute of ...

A research team recently developed "sliding walls" as a new technique for fluid control in microfluidic devices, allowing semi-rigid or rigid walls to slide inside a microfluidic chip. In a new report ...

Researchers have developed a groundbreaking, freely available droplet microfluidic component library, which promises to transform the way microfluidic devices are created. This innovation, based on ...

(Nanowerk News) Most conventional microfluidic devices are fabricated in inherently planar, block-like devices that can't be changed once fabricated. In contrast, an important feature of naturally ...

Polydimethylsiloxane (PDMS or silicone) is an important and versatile material used in the field of printed electronics (PE). In particular, thin film layers of PDMS show great promise for use in ...