Microfluidics Manufacturing Service
Microfluidics involves the precise manipulation of fluids at a microscopic scale. Our manufacturing service bridges the gap between innovative concepts and market-ready products by producing custom, high-precision devices for research, diagnostics, and industry. Utilizing advanced, high-resolution fabrication technology, we ensure intricate designs are produced with exceptional accuracy and consistency.
What is Microfluidic Device Manufacturing?
Our microfluidic device manufacturing service is a turnkey solution for producing finished, ready-to-use devices. Unlike traditional prototyping, which may focus solely on testing a design, our service is dedicated to creating functional devices that meet the specifications for your final application.
This process is used across industries such as biomedical research, point-of-care diagnostics, pharmaceuticals, and chemical synthesis, where precision and miniaturization are critical. Our low-to-medium volume production provides a clear path from design validation to commercial deployment.
From Prototype to Final Product
Our service is engineered to treat microfluidics as a commercial product, not just a lab experiment. We provide a direct bridge from development to market.
- Final Product Ready: We focus on delivering devices that look and function like a finished product, suitable for integration into your instruments or for direct sale.
- Micro-Precision Manufacturing: Our BMF MicroArch S150 system achieves 25 µm resolution with exceptional surface quality, essential for reliable and consistent fluid control
- Design for Manufacturability (DFM): We help optimize your design to leverage the full capabilities of 3D printing, ensuring high yields, repeatability, and cost-effectiveness for small-batch production.
- Material and Workflow Flexibility: We handle a range of materials and our automated setup allows for fast iteration and production, cutting development time
Applications for High-Quality Microfluidics
Our microfluidic chips are suitable for a wide range of applications, primarily in the life sciences and biomedical fields :
- Lab-on-a-Chip Systems: For creating complex, miniaturized devices for diagnostics and analysis
- High-Resolution Droplet Generation: For precise sample preparation and encapsulation in chemical and biological assays
- Cell Culture Assays: For creating environments that require visibility for monitoring cell behavior and interactions
- Micro-Mixing: Ideal for developing passive mixing solutions similar to, but with greater design freedom than, conventional chips
Why Choose This Service?
This service distinguishes itself by providing a direct path to a finished, high-performance product.
- Move from Design to Testing Faster: Bypass lengthy prototyping cycles and receive functional chips quickly.
- Scale with Confidence: The process is designed to support everything from initial R&D to short-run industrial production, providing a clear path to scale .
- Expert Support: Our team will work with you to translate your design requirements into a manufacturable, high-quality chip.
Types of Microfluidics
| Type | How It Works | Typical Applications | Advantages |
|---|---|---|---|
| Continuous-Flow Microfluidics | Fluids continuously flow through microchannels using pumps or pressure. | Chemical synthesis, diagnostics, cell culture, mixing | Mature technology, precise flow control |
| Droplet Microfluidics | Creates tiny droplets that act as individual reaction chambers. | Drug discovery, single-cell analysis, digital PCR | High throughput, low reagent consumption |
| Digital Microfluidics (DMF) | Manipulates discrete droplets on a flat surface using electric fields. | Medical diagnostics, automated laboratory testing | No microchannels required, highly programmable |
| Paper-Based Microfluidics | Uses porous paper to transport liquid through capillary action. | Rapid test kits, environmental testing, food safety | Low cost, disposable, portable |
| Centrifugal Microfluidics (Lab-on-a-Disc) | Uses centrifugal force from a spinning disc to move liquids. | Point-of-care diagnostics, sample preparation | Pump-free operation, integrates multiple processes |
| Electrokinetic Microfluidics | Moves fluids using electric forces such as electroosmosis or electrophoresis. | DNA separation, protein analysis, analytical chemistry | Precise manipulation of charged particles |
| Acoustic Microfluidics | Uses ultrasonic waves to move or separate particles and cells. | Cell sorting, biomedical research, sample concentration | Gentle, label-free particle handling |
| Magnetic Microfluidics | Controls magnetic particles using external magnetic fields. | Cell isolation, immunoassays, targeted drug research | Selective particle manipulation |
| Optofluidics | Combines optics with microfluidics to analyze or manipulate samples. | Optical sensing, imaging, biosensors | High sensitivity, real-time detection |
| Capillary Microfluidics | Relies solely on capillary forces without external pumps. | Pregnancy tests, glucose strips, portable diagnostics | Simple, energy-free operation |
Application






Our competencies
We are a highly dependable mechanical powerhouse with an extensive array of additive manufacturing (3D Printing) & subtractive manufacturing capabilities. Catering from one-off prototyping to low-volume production, we offer solutions that span from basic to industrial, including cosmetic finishing manufacturing.
3D Printing
SLS,SLA,SLM,FDM,MJF,PµSL
- Tolerances accuracy ± 0.02 mm
- Class 1 surface finishing
- Engineering grade material
Laser Cutting
CO2 Laser
- Bending, welding
- Stainless steel, aluminium
- Thermoplastic, tapes & gaskets
- Cutting, boring, engraving, etching
Vacuum Casting
Urethane Casting
- Material flexibility
- High transparency
- Production-like parts
CNC Machining
Milling, Turning
- Tolerances down to ± 0.03 mm
- 3 & 5 axis
- Anodizing, powder coating
- Wide range of material
Start your next project with us today
Manufacturing limitless possibilities with industrial fabrication solutions.
