by Beonchip | Dec 2, 2024 | Be-Doubleflow, Be-Flow, Be-Transflow, Chips, Technical Notes
Summary This guide summarizes Beonchip’s microfluidic chip design customization options to improve your cell culture model. It highlights the importance of channel dimensions in microfluidic chips for key aspects such as cell culture area, microscopy inspection, and...
by Beonchip | Nov 13, 2024 | Be-Flow, Chips, Technical Notes
Summary Gravity-driven flow is paramount during the first stages of culture in organ-on-chip platforms. This study demonstrates oxygen consumption in a cellular monolayer within a microfluidic device and highlights the significance of gravitational-flow in maintaining...
by Beonchip | Sep 24, 2024 | Be-Flow, Chips, Technical Notes
Summary Researchers from the University of Castilla la Mancha and University of Zaragoza have optimized a microfluidic system under flow conditions to reduce the adsorption of graphene materials on components such as tubing and microfluidic devices, as well as their...
by Beonchip | Jan 12, 2024 | Be-Flow, Chips, Technical Notes
This graphical abstract was partly generated using Servier Medical Art, provided by Servier, licensed under a Creative Commons Attribution 3.0 unparted licence”. Overview One of the strongest advantages of BEOnChip devices is their compatibility with microscopy which...
by Beonchip | Jul 4, 2023 | Be-Flow, Chips, Technical Notes
Overview One of the strongest advantages of BEOnChip devices is their compatibility with microscopy which allows the monitoring of the cell culture overtime or at designated time points. However, there are several cell features that are important to evaluate, such as...
by Beonchip | Feb 23, 2022 | Be-Flow, Chips, Organ on a chip
INTRODUCTION Gut-on-a-chip models offer a powerful in vitro platform for studying the physiology and patho-physiology of the intestine. The gut is home to a microbiome that plays an important role in health and disease. Some of these microorganisms survive the hypoxic...