Microfluidics: What we do?

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Microfluidic Chip and Sensor

In our company we design microfluidics, prototype any microfluidic chip or biosensor and develop microfluidic products in order to improve,diagnostics and analysis tools: Our customers come from the microfluidic research & diagnostic industry. In order to meet our customer needs, we offer a broad range of technologies for micro-manufacturing polymer materials with features from units of microns up to large dimensions. Our expertise allow us to handle projects ranging from single prototypes and a small number of units to higher volume production of a specific microfluidic chip. We also offer consultancy services (either you already know exactly what you need and you are ready for manufacturing, from 1 unit to large production, or you prefer to be guided by our engineers to materialize your idea) and packaging. Our case studies can help you to know how to develop a simple chip, or to connect the chip with external components or also, to integrate the microfluidic chip into a ready-to-use automated microfluidic platform

Thermoplastics (CoC, CoP, PMMA, PC & PS, etc.) Microfluidic prototyping technology to have prototypes as close as possible to the final product, saving time and money.
First prototypes in PDMS, the microfluidic chip can be tested and challenged. Once your first microfluidic tests are done, other materials can be used as well as other microfluidic manufacturing technologies
Specialized in micrometric interdigitated sensors, with resolutions up to 1 micron. This MEMS, based on microfluidics, allows the detection or measurement of different components of the liquids.
Compatible with reagents in the microfluidic chip. Different techniques for bonding varying on the aplication: monolythic bonding, using adhesives & solvents , Thermocompression, etc, in order to seal the microfluidic chip, biosensor or MEMS
Microfluidic Manufacturing Techniques adapted to large production, available to take your validation to the next level and reach the market faster
Microfluidic and ISO CERTIFIED Clean room manufacturing and equipment to ensure correct and quality microfabrication
Email us your Questions or to Request a Rapid Quotation at [email protected] or

Multi height molds in silicon-SU8 for Microfluidics

Manufacture your own PDMS microfluidic chip in an easy way using our molds. Send us your design and you will have your mold ready to start. Multi layer design with a resolution of microns is available for lab solution. Additional treatments are used to guarantee the reproducibility of the mold for hot embossing technology. You will be able to rapidly reproduce any microfluidic chip for microfluidic prototyping, your first steps towards a mass microfluidic fabrication

Rectangular cross section profile. Walls with an angle of 90 degrees
Mold dimensions: Diameter 4 inches (Approx 10 cm). Useful area: 9 cm
Substrate: silicon or glass. Other materials available.
Material of microstructures: polymer SU-8
Dicing: The wafer can be cut into smaller rectangle pieces or microfluidic chips.
Depth:  3 -300 micron
Width:  above 10 microns
Smaller features available on demand.
Aspect ratio: 18:1
+-5 microns in height, depending on the structures and dimensions
+-1 micron in width, depending on the structures and dimensions
Send us the design to [email protected] (subject: molds inquiry) and order for the molds. Order should be signed and stamped.
The lead time for delivery of microfluidic molds is three weeks, after the design is approved.
Design sent by the customer will be approved or rejected in 24 hours.
Express service is available on demand. 1 week after the approval of the design.
All orders of standard molds should be pre-paid.
The design can be provided by the customer according to the design rules, or it can be adapted to a technical format such as .cif by microLIQUID

Provided by microLIQUID: A sketch will be provided, and microLiquid will proceed to send the design to the customer in order to be approved.
Customer provided:
1. Preferably CIF files also supported DXF and DWG files.
2. The drawing must have closed contour lines.
3. Mold Dimensions
4. If wafer dicing, cutting lines must be shown in the design.
The width of the lines must be 200 microns and must go from one side of the wafer to the other
The desired dimension after the cutting must be the exact distance inside the cutting lines
5. If multilayered, alignment marks must be provided
Email us your Questions or to Request a Rapid Quotation at [email protected] or

Large series of Microfluidic manufacturing

Our facilities allow the production from the microfludic chip and microfluidic protoyping to mass production , with the highest standard in quality and ISO certifications. We can help our customer to launch a microfluidic product to the market from the idea of a microfluidic setup

Ideal for products with lower cleaning requirements, to achieve competitive costs. The microfluidics require high quality facilities in order to deliver the best microfluidic solution to the market
Specialized in microfluidic technologies and microfluidic fabrication for a greater control and traceability of each product / service line. Once you choose us as a partner, you will be fully informed and with full knowledge of where your microfluidic products are and with QC process.
Manufacturing standars validated according to ISO 13485: 2012. Regular audits of customers in our facilities. 
Other certifications: ISO 14001 Enviroment, ISO 18001 facilities safety and security OSHAS. Our products can be validated and homologed according to the USP Norm Class VI and ISO 10993.
Email us your Questions or to Request a Rapid Quotation at [email protected] or

Microfluidic Chip and Sensor Use Cases

Here you will find some examples of the charms or microfluidic sensor we have developed with our customers. From microfludic prototyping to microfluidic manufacturing on a larger scale. We have the in-house capability for any microfluidic development

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Microelectrode Arrays ( MEAs )

Microfluidic Chip

Standardized Microfluidic Test Protocol

Microfluidic Platform

Accurate Plastic Sealing Process

Microfluidic Chip

Droplet Microfluidics - SPECIFIC MICROFLUIDIC DEVICES III

Microfluidic Chip

Optical Sensors and microfluidics

Microfluidic Design

Electro kinetic Microfluidics - Specific Microfluidic Devices II

Microfluidic Chip

Integrated Microfluidics-Specific Microfluidic Devices

Microfluidic Chip

Microfluidic Chip for Biomolecules detection

Development

Reagents stored on a microfluidic chip

Chip

Validation Laboratory for microfluidic systems

Chip

SU8 Epoxy in Microfluidic architectures

Chip

Rock on a Chip in Microfluidics

Microfluidic Chip

Spotting in Microfluidic Chip

Microfluidic Development

Electrochemical Sensors with Metal Electrodes

Microfluidic Chip

PCR microfluidic chip

Microfluidic Chip

Microfluidic biochip

Microfluidic Chip

Thermocycler for microfluidic PCR chips

Featured

Microfluidic single channel chip

Microfluidic Chip

Microfluidic t-mixer Chip

Microfluidic Chip

Microfluidic standard chips

Microfluidic Chip

Microfluidic Cross Channel Chip

Microfluidic Chip

Microfluidic standard chip holder 45mm x 15mm

Microfluidic Chip Holder

Standard microfluidic chip holder of 30 mm x 20 mm

Microfluidic Chip Holder

Standard microfluidic chip holder of 10 mm x 10 mm to fill and interact with the microfluidic chips

Microfluidic Chip Holder

Capillary electrophoresis microfluidic chips

Microfluidic Chip

MICROFLUIDIC RESEARCH: Chemoguide

Microfluidic Development

MICROFLUIDIC RESEARCH: Labonfoil

Microfluidic Development

MICROFLUIDIC RESEARCH: Selfpocnad

Microfluidic Development

MICROFLUIDIC RESEARCH: Hilysens

Microfluidic Development

Microfluidic Research:Lungcard Project

Microfluidic Development

Optoelectronic

Microfluidic Chip Holder

Isolated Enviroment

Microfluidic Chip Holder

Flow Sensor

Microfluidic Chip

Microfluidic valve for fluidic control

Microfluidic Chip