Abstract Lab-on-a-chip (LOC) devices are broadly used for research in the life sciences and
diagnostics and represent a very fast moving field. LOC devices are designed, prototyped …

With the increased global population, it is more important than ever to expand accessibility
to affordable personalized healthcare. In this context, a seamless integration of microfluidic …

In this paper, we review the current status of the hybrid silicon photonic integration platform
with emphasis on its prospects for increased integration complexity. The hybrid silicon …

This paper introduces a CMOS–microfluidics integration scheme for electrochemical
microsystems. A CMOS chip was embedded into a micro-machined silicon carrier. By …

This work presents a microfluidics-integrated label-free flow cytometry-on-a-CMOS platform
for the characterization of the cytoplasm dielectric properties at microwave frequencies …

In recent years, there has been growing interest in develo** capacitive biosensors using
Complementary Metal Oxide Semiconductor (CMOS) technology for various life science …

In recent years, nanotechnology and material science have evolved and matured, making it
easier and easier to design and fabricate next-generation 3D microelectronics. The process …

The number of scientific disciplines whose names begin with the prefix nano has grown
dramatically since the launch of the National Nanotechnology Initiative in 2000. Some of …

Direct sensing in liquids using CMOS-integrated optical and electrical sensors is attractive
for lab-on-chip applications, where close physical proximity between sample and sensor can …

CMOS chips are increasingly used for direct sensing and interfacing with fluidic and
biological systems. While many biosensing systems have successfully combined CMOS …