For accurate and easy flow control
Discover the power of microfluidics for dynamic cell culture with Elveflow! Invited by Klein Scientific , our Australian distributors, we explore how microfluidic technology offers precise flow control, versatility for long-term experiments with multiple liquids, and more accessible live cell imaging. Learn about organ-on-chip models that reduce animal testing and provide accurate biological insights. Stay for the interactive Q&A and see how microfluidics can transform your research!
This webinar introduces you to the benefits of multiplexing injection for various applications.
This webinar introduces you to the advantages of culturing cells in a 3-D environment with microfluidic flow for diverse cell migration studies.
Get started with droplet-based microfluidics and master droplet generation with Elveflow’s Droplet Microfluidics Pack.
This webinar introduces you to the benefits of dynamic flow in cell culture and the advantages of recirculation for cell biology applications.
This webinar introduces you to the best technologies available on the market to control & measure fluid flows.
Here, the speaker will discuss how various orientational structures in pressure-driven nematics can exist together & remain stable in microflows that are precisely engineered.
In this webinar, a novel in-vitro microfluidics experimental setup from engineering perspective is introduced to comparatively study on currently employed glaucoma drainage devices (GDD) for the glaucoma treatment.
This webinar provides an overview on the integration of microfluidic technology in contact lenses, with applications in tear-based ocular health screening and ocular pressure monitoring
This webinar focuses on a new soft thermoplastic fluoroelastomer that can be used for rapid fabrication of microfluidic devices. Some of its key material properties will be discussed before exploring its utility for chemically compatible modular microdevices.
Microfluidics is a highly versatile tool to study two-fluid systems – from the mixing of oil in water (emulsion) to the incorporation of gas bubbles into a liquid medium (foam). Here, we introduce the concepts of bubble and foam stability, the advantages of microfluidics bubble generation and its applications.”
Here we introduce the concept of dynamic cell culture by incorporating perfusion, and describe the benefits of fluid flow, mechanical tension and shear stress to in vitro cell models of physiology and disease.
The single spore/conidia of the fungi can be encapsulated in the droplet using microfluidic techniques.
Droplet formation is encountered in natural, research and industrial settings. Emulsification requires the presence of surfactants but the short timescales of droplet formation create a dynamic environment that allows for the presence of Marangoni phenomena that impact the process. On the other hand the highly dynamic velocity fields that develop during droplet formation are important in the mixing and mass transport of reactive species in the case droplets are used as micro-reactors.
During the application, it is essential to track and probe the individual droplets. The Droplet Detector offers a light-based non-invasive, sensitive, high-throughput and convenient way to achieve this goal.
Camila Betterelli Giuliano, PhD candidate for ProtoMet presents the connection between the origins of life and microfluidics.
This webinar is about all you need to know regarding droplet-based microfluidics covering the related theory, the practicals and the applications from single emulsion to polymer beads generation.
The specific dimensions of microfluidic devices enable to work in confined geometries. This confinement allows a better control over the dimensions and shapes of bubbles, droplets and fibers.
Microfluidics is the key to develop models that can recreate the complexity of the soil system while also being suited for analysis, allowing the study of many potential applications of such organisms.
Microfluidic devices are designed to manipulate fluids in channels on the microscale, and have widely been used in the field of nanotechnology.
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