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 | Sep 12, 2024 | Be-Transflow, Chips, Technical Notes
Summary At Beonchip we offer standard cell culture platforms and the option to customize the channel’s dimensions or pore size of the membrane. In addition, we also offer services where the device’s design can be altered to better suit the research needs.In this...
by Beonchip | Apr 24, 2024 | Be-Gradient, Chips, Technical Notes
Summary Here we provide a comprehensive and brief overview of a scientific publication detailing the developmental journey of the BE-Gradient Barrier-Free device. In it we elucidate its intricate design process and rigorous testing procedures in a collaborative effort...
by Beonchip | Mar 20, 2024 | Be-Doubleflow, Chips, Technical Notes
Introduction Cell fixation and immunostaining are critical techniques in cell biology and biomedical research. Cell fixation is the process of immobilising cells in a particular state, preserving their morphology, and preventing any further changes. This is crucial...
by Beonchip | Feb 19, 2024 | Be-Transflow, Chips, Technical Notes
Researchers from the University of Zaragoza have employed the Be-Transflow device to develop a stratified epithelia-on-a-chip model, highlighting this device as a useful platform for permeability studies. Figure 1 BE-Transflow device. Replicating the permeability of a...
