Blood microcirculation supplies neurons with oxygen and nutrients, and contributes to
clearing their neurotoxic waste, through a dense capillary network connected to larger tree …

The formation process during which the liquid electrolyte wets into the porous electrode films
usually takes several days or weeks at elevated temperatures, which poses a distinct …

In recent years, microfluidic technology has emerged as a powerful and innovative tool,
attracting significant attention for its ability to provide real-time visualization of CO₂ flow …

Viscoelastic flows through microstructured geometries transition from steady to time
dependent and chaotic dynamics under critical flow conditions. However, the implications of …

The placenta is a multifunctional organ that exchanges blood gases and nutrients between a
mother and her develo** fetus. In humans, fetal blood flows through intricate networks of …

Understanding and controlling transport through complex media is central for a plethora of
processes ranging from technical to biological applications. Yet, the effect of micro-scale …

We study the interplay of pore-scale mixing and network-scale advection through
heterogeneous porous media, and its role for the evolution and asymptotic behavior of …

Directed motility enables swimming microbes to navigate their environment for resources via
chemo-, photo-, and magneto-taxis. However, directed motility competes with fluid flow in …

While bacterial swarms can exhibit active turbulence in vacant spaces, they naturally inhabit
crowded environments. We numerically show that driving disorderly active fluids through …

Upscaling dispersion, mixing, and reaction processes from the pore to the Darcy scale is
directly related to the understanding of the dynamics of pore‐scale particle velocities, which …