Cellular processes are mechanisms carried out at the cellular level that are aimed at
guaranteeing the stability of the organism they comprise. The investigation of cellular …

Microfluidics is a very useful and promising technology that allowed engineering a huge
variety of developments in several fields, such as biology, biomedical engineering …

Some bacteria have coevolved to establish symbiotic or pathogenic relationships with
plants, animals or humans. With human association, the bacteria can cause a variety of …

Characterizing the impact of nanoplastics to organism health is important to understand the
consequences of the environmental plastic waste problem. This article examines the impact …

It is the ambition of many researchers to finally be able to close in on the fundamental,
coupled phenomena that occur during the formation and expression of electrocatalytic …

Oxygen is considered detrimental to anaerobic fermentation processes by many
practitioners. However, deliberate oxygen sparging has been used successfully for decades …

A plethora of 3D and microfluidics-based culture models have been demonstrated in the
recent years with the ultimate aim to facilitate predictive in vitro models for pharmaceutical …

The fate and transport of bacteria in porous media are essential for bioremediation and
water quality control. However, the influence of biological activities like extracellular electron …

Electrotaxis is the property of cells to sense electric fields and use them to orient their
displacement. This property has been widely investigated with eukaryotic cells but it remains …

The microbial environment is typically within a fluid and the key processes happen at the
microscopic scale where viscosity dominates over inertial forces. Microfluidic tools are thus …