Elveflow provides cutting-edge instruments leading to significant discoveries in science.
But that is not all we do. We also share knowledge.
Our Research Summaries bring the latest findings in the vast universe of peer-reviewed microfluidics applications to you. From physics and engineering to chemistry and biomedical sciences, our content is developed by experts with free access to everyone.
Discover how BioTrojan attacks target PDMS microvalves in flow-based microfluidic biochips, compromising biomedical devices. Learn about innovative countermeasures, including design improvements and spectral authentication techniques, to safeguard critical diagnostic operations.
Discover the potential of pressure-driven flow control in liquid-phase electron microscopy (LP-EM) for precise sample characterization.
Discover how light-field flow cytometry (LFC) enhances imaging flow cytometry by delivering high-throughput, high-resolution, 3D single-cell analysis. Explore its applications in cell biology and translational research.
Learn how optical nanotweezers and microfluidics reveal ferritin molecules' dynamics, advancing our understanding of iron metabolism and innovative medical applications.
Discover how mechanical cues influence pathogen-host interactions, and the challenges in capturing these in real-time microscopy.
Establish the feasibility of utilizing dye-doped soap or smectic liquid crystal bubbles as optical cavities for whispering gallery mode lasing
Learn how to implement a simpler electrophoretic separation system for extracting oleosomes and proteins from oilseeds.
A new automated microfluidic-based method for the genotoxicity testing of new biomaterials.
An optical measurement method of the lubrication film around flowing droplets in a rectangular microfluidic channel.
Learn the strategies for upscaled microfluidic emulsification and droplet formation, for the industrial production of emulsions.
Discover a pressure-controlled injection that achieves deterministic droplet coding for droplet identification and tracking.
A novel miniaturized pseudo reference electrode designed for ultra-low volume ultra-low volume on-chip biochemical sensing.
Discover how Zhan and colleagues used microfluidics and DNA nanotechnology to build a functional cytoskeleton for synthetic cells.
An integrated MZI method that reliably labels and enables droplets characterisation using microfluidics in real-time.
Short review on the preparation of multivesicular vesicles using microfluidics for drug delivery and artificial cells
The authors developed, tested and validated a method that applies a pressure-driven flow controller to fabricate biocompatible micron-scale silk fibers by microfluidic wet spinning.
Design, fabrication and application of microfluidics-based flexible microdevices to apply mechanical cell compression and stimulation
The study explores the process of calibrating the irrigation system using a pneumatic pressure controller for deep bone ablation.
Electrokinetic sandwich assay and DNA mediated charge amplification
This short review presents on-chip automatic efficient bacteria separation and preconcentration method with the use of pressure-driven flow controlled microfluidics.
The study explores a method to dynamically screen and print single cells using microfluidics with pneumatic microvalves.
This review article explores the functioning of a human bladder on chip model to study the key features of bladder physiology that are important to early UPEC infection.
The study explores if BCDs (Bicistronic designs) would be able to operate as effectively in vitro as they do in vivo to produce a predictable level of protein.
This short review explores a droplet-based microfluidic approach to create an efficient system of measuring and evaluating cytotoxic ability of NK-92 cells towards target cells.
This short review explores a microfluidic approach to synthesize stimuli-responsive microcapsules with temperature-responsive core-gap-shell structures for versatile design. The pressure-driven flow controller enabled the authors to achieve precise control over the generation of core gap-shell microcapsules for this study.
This short review is based on a study that aims to analyse and identify the in-vitro performance of actively employed Glaucoma drainage devices on the glaucoma treatment. A precise microfluidic setup is assembled that can rigorously test these GDD’s for various real-time situations.
This short review article explores three types of Giant unilamelar vesicles (GUVs) based Synthetic Organelles assembly enabled by droplet-based microfluidic equipment and concepts.
IN A 2020 CELL PAPER, Michele M. Nava and Yekaterina A. Miroshnikova, from SARA A. WICKSTRÖM’S GROUP IN HELSINKI, along with co-authors, demonstrate the ability of nucleus, cells and tissues to rapidly adapt to mechanical stress and avoid DNA damage.
The authors describe the use of a dynamic dual micro-valve system, which can be used to screen cells based on their size and print single-cells into separate cell culture chambers.
The authors describe the use of microfluidics for the fabrication of nanohydrogels made from hyaluronic acid derivatives, for drug-delivery.
Flow cytometry microfluidics employs the elastic property of viscoelastic fluids to induce lateral lift force to migrate the particles into a single streamline.
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