The novelty of nanoparticles in transferrals of medications and biological fluids via
electrokinetic mechanism has been competently recognized. Due to the impressive role of …

The overall objective of the current analysis is to examine how electroosmotic flow combined
with peristaltic pumping phenomenon could ably contribute to intracellular fluid flow. The …

In the current era, the electromagnetic pumping flow of hybrid nano-biofluid features in
myriad magneto-biomedical engineering applications. In this scenario, the current …

Nanofluid consideration has been magnified due to their exceptional heat transfer
characteristics and prospective applications in engineering and medical sciences after the …

Biomimetic propulsion mechanisms are increasingly being explored in engineering
sciences. Peristalsis is one of the most efficient of these mechanisms and offers …

This paper aims to analyze the electroosmotic flow of non-Newtonian ionic nanoliquids in
presence of peristaltic propulsion. A geometric model is employed for a microfluidic tapered …

The flow characteristics of nanofluids flow driven by combined effects of electroosmosis and
peristalsis are very important for designing bio-mimetic pumping systems at the micro scale …

The purpose of this article is to discuss the motion of five different undulating swimming
sheets assisted by an electric field and dynamical interactions. The sine or cosine wavy …

In the present investigation, the blood mediated nanofluid flow has been studied in the non-
symmetric channel driven by peristaltic mechanism. The influence of radiation …

An analytical study of microvascular non-Newtonian blood flow is conducted incorporating
the electro-osmosis phenomenon. Blood is considered as a Bingham rheological aqueous …