See how microfluidic experiments should work! Complete systems allow one to start experiments in minutes. Increased versatility and ease of use, spend more time on result, not cumbersome setups.
A unique 4 channel microfluidic flow control system. Easy to install and use, many automation possibilities. Field proven technology and superior quality.
A compact 8 channel microfluidic pressure controller. Wide controllable pressure range, flow-rate from sub µL/min to thousands of µL/min.
A bidirectional microfluidic flow sensor interfaced with our software, allows for direct control or monitoring of flow rates. Available in five models with different flow-rate ranges.
A hub managing the communication between Fluigent software and up to 8 FLOW UNITS per FLOWBOARD. Computer connection and power supply with a single USB plug. For use as a free standing flow monitoring platform, of for flow control with the MFCS series.
The ESS™ platform is a versatile fluid handling platform for directing fluid flow that can be automated using Fluigent software. It includes three complementary types of bidirectional valves (the 2-SWITCH™, the L-SWITCH™ and the M-SWITCH™), as well as an unique communication hub, the SWITCHBOARD.
A complete set of reservoirs- easy to use and refillable for long term experiments. Compatible with multiple pressure-based microfluidic experiments in parallel.
Specifically, designed caps for pressurization in microfluidic experiments. Autoclavable for sterilization, they can be used with different types of tubing and are suitable for long term experiments.
High-speed camera: up to 7092 fps
Adapted for KHz rate droplet microfluidics
High quality optics
Ready to use
FLPG Plus (P/N = FLPG005) is a lab-bench-scale compressed air solution, which can produce, without any maintenance, a high quality air for all types of microfluidic experiences. It’s a single device including:
dSURF is a high-performance surfactant suited for production of highly monodispersed and stable microdroplets. Provided at 2% in 3M™ Novec™ 7500 fluorinated oil, dSURF allows high performance droplet formation and long-term stability even in challenging conditions such as dPCR and cell culture experiments.
The RayDrop is a microfluidic droplet generator composed of three main parts fully removable: two inserts on each side and a center section containing a nozzle and an outlet capillary. There are four standard microfluidic connections, two on the box for the continuous phase, and one on each insert for the dispersed phase entry and the mixed phase or droplets exit.
Applications that require switching between multiple solutions (such as samples or buffers) may be time-consuming and tedious as they typically require many manual operations. Aria is designed to replace manual procedures such as pipetting or manual switching. This automated solution for cellular perfusion or timed injection protocols allows one to automate delivery up to 10 different solutions into a chamber or microfluidic chip by following user defined protocols.
Fluigent has partnered with Micronit to offer a versatile fully integrated organ-on-a-chip kit which reproduce numerous characteristics of the in vivo environment.
The Fluigent/Micronit organ-on-a-chip kit focuses on modeling the main biochemical and biophysical features of the native environment of cells in order to induce their growth and differentiation as functional tissues. Air-liquid interface, flow induced shear stress, mechanical stimulation, biochemical gradient, cell-cell coculture have been reported to significantly improve the functionality of in vivo models. All these parameters are controlled by the microfluidic system.
The Droplet Started Pack (P/N= Droppack01) is designed for all who wants to start with microfluidic droplets experiments. It includes the EZ Drop chips and full adapted liquid handling solution and accessories.
The Fluigent PLGA particle station is a robust, high-quality system for producing monodispersed PLGA microparticles. The station has the flexibility to vary particle size in less than a second without interrupting particle production. Its performance results from the combination of Fluigent high-precision LineUpTM microfluidic pumps and the RayDrop device designed by Secoya, a breakthrough technology for high-quality particle production.
Our new Educational Packages provide an opportunity to learn or teach basic microfluidic principles and applications . They provide an in depth introduction and are optimized for students to scientists needing an introduction to microfluidics.
Depending of your level of expertise, you can choose between 4 different packages that all include:
The microfluidic cell sorting package allows sorting cells or particles according to their size using inertial and Dean drag forces.
Fluigent has joined with microfluidic ChipShop to provide a solution with well-designed microfluidic devices and excellent flow control for sorting experiments.
Our aim is to ensure that you have all the necessary equipment for an easy and immediate start with our microfluidic products. This includes not only our wide variety of off-the-shelf microfluidic chips, but also all accessories you need to run our microfluidic chips, such as fluidic interfaces, tubings, complete accessory kits, and special reagents.
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Some interesting materials that are useful in microfluidics, in particular a range of different polymers, are either not commercially available as plate materials or not of sufficient quality for the special requirements of microfabrication. If you are in need of plain substrate material, e.g. for hot embossing experiments or as unstructured platform for surface chemistry experiments, we can provide you with substrates in our standard formats, like the microscopy slide, the 1/4 microtiterplate
Wafers, to be used for instance as substrates for hot embossing, come in several units in one package. If surface quality matters, each wafer is separately packaged. The dimensions of the substrates may differ in the range of 0.5 % depending on the material. If the material or the colour you require is not listed, we are happy to provide you with a special quote for substrate for your material needs. Besides the thicker polymer substrates in various formats, special foil materials in different
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To run microfluidic experiments, some basics like tubes, connectors, or reagents are necessary. Different options and combinations of tubes and fluidic interfaces might be of interest. We offer several selections of kits comprising interfaces, chips with instrument, selection of chip types, handling frames, or further accessories – so you can start right away with exactly what you were looking for.
The microfluidic support kits comprise different components necessary for running microfluidic systems. This includes tubes to bring the fluid into the chip, and silicone tubes to enable the interconnection between for example a microfluidic ChipShop fluidic platform chip and tubing, or between tubing and a syringe. Forceps can be used to stop a flow by clamping a silicone tube and syringes to fill chips manually. These small kits allow you to directly start with your microfluidic experiments w
The microfluidic starter kits comprise several standard chips as well as necessary accessories for a quick start with microfluidics. With these kits, a first series of experiments allows to get familiar with the use of microfluidic devices.
Various microfluidic interfaces to be used with microfluidic ChipShop’s microfluidic platforms are arranged as special kits, e.g. to be used with the female Mini Luer microfluidic platforms, or the female Luer microfluidic platforms.
In order to operate the different integrated chips various fluidic interfaces are necessary or make the handling of the chip more convenient, e.g. Mini Luer or Luer fluid connectors or plugs. Further handling aids like manipulators for turning valves or handling frames are the respective accessories being of use for these devices.
This kit comprises plasma generation chips with either 2 or 4 membranes, accessories and a user guide for a quick start in on-chip plasma generation out of whole blood. Depending on the blood sample, the included chips allow generation of plasma/serum in the range of 12 – 15 μl (Chip with 4 membranes) and 20 – 35 μl (Chip with 2 membranes).
The ChipGenie® edition P starter kits comprise several standard chips that can be used with the ChipGenie® edition P instrument as well as accessories that can be combined with the system. Depending on users’ preferencies, the chips can be either operated manually with a pipette or with a pump that can be connected to the chip with the male Mini Luer fluid connectors.
Microfluidic ChipShop´s microfluidic toolbox offers the complete set of chip modules and accessories to start directly with molecular biological experiments. Tubes, accessories for the interconnection and liquid handling are included. The molecular biological starter kits and the microfluidic accessories are designed for the combination with handling frames and chips of the molecular biological product families.
The ChipGenie® edition E starter kits comprise instrument and standard chips as well as standards to carry out capillary electrophoresis with contactless conductivity detection on chip.
Microfluidic ChipShop´s microfluidic toolbox offers the complete set of chip modules and accessories to start directly with cell-based microfluidic experiments. Tubes, accessories for the interconnection and liquid handling are included. The cell culture basic kits and the microfluidic accessories are designed for the combination with handling frames and chips of the cell culture product families.
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