In the most recent decade, carbon dots have drawn intensive attention and triggered
substantial investigation. Carbon dots manifest superior merits, including excellent …

Microfabricated integrated circuits revolutionized computation by vastly reducing the space,
labor, and time required for calculations. Microfluidic systems hold similar promise for the …

The applications of electrokinetics in the development of microfluidic devices have been
widely attractive in the past decade. Electrokinetic devices generally require no external …

The present study scrutinizes the nonlinear stability of a plane interface concerning two
fluids of Walters' B (WB) type. An unchanging tangential electric field (EF) impact upon the …

Many electrochemical and microfluidic systems involve voltage-driven transport of ions from
a fluid electrolyte toward an ion-selective interface. These systems are governed by intimate …

Isotachophoresis (ITP) is a versatile electrophoretic technique that can be used for sample
preconcentration, separation, purification, and mixing, and to control and accelerate …

Microelectromechanical systems (MEMS) are evolving into highly integrated technologies
for a variety of application areas. Add the biological dimension to the mix and a host of new …

Electrokinetic flow instabilities occur under high electric fields in the presence of electrical
conductivity gradients. Such instabilities are a key factor limiting the robust performance of …

Turbulence is commonly viewed as a type of macroflow, where the Reynolds number (Re)
has to be sufficiently high. In microfluidics, when Re is below or on the order of 1 and fast …

This review article presents an overview of some of the tools, techniques and applications of
numerical simulation for integrated microfluidic devices. Provided is a broad overview of the …