Explore our wide array of chip configurations and identify the ideal match for your requirements.

PMMA-Based


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Double-layer, 3 channel microfluidic chip made from PMMA & double sided adhesive layers.

PMMA-Based with Glass Support


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Double-layer, 3 channel microfluidic chip made from glass, PMMA & double sided adhesive layers.

PMMA-Based with Open Channel


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Single-layer, 3 channel microfluidic chip made from PMMA & double sided adhesive - bonded to any surface.

Custom Microfluidic Chip


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Customization of PMMA-based microfluidic chips is available, with tailored channel dimensions, geometries for specialized applications.

Enhance your research with our high-quality microfluidic chips.
For pricing and custom requests, please contact us

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Transforming Healthcare with
Cutting-Edge Solutions




Saniber aims to offer up-to-date technology-based products and services for the healthcare sector.

Our team, continuing its activities with this purpose, focuses on the research, development, and production of modern, smart, and dynamic digital health systems that aim to meet the needs of the sector.

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Academic

Our Academic Background

Attomolar protein detection using a magnetic bead surface coverage assay
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Monitoring Neutropenia for Cancer Patients at the Point of Care
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μDACS platform: A hybrid microfluidic platform using magnetic levitation technique and integrating magnetic, gravitational, and drag forces for density-based rare cancer cell sorting
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Absorbance-based detection of arsenic in a microfluidic system with push-and-pull pumping
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Adhesive bonding strategies to fabricate high-strength and transparent 3D printed microfluidic device
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FREQUENTLY ASKED QUESTIONS

About Our
Microfluidic Chips

Each microfluidic channel has a volume capacity of 10 microliters

Our microfluidic chips can tolerate temperatures up to 85°C for a maximum duration of 5 hours without compromising structural integrity or performance.

Yes, the chips can be sterilized through both autoclave and UV exposure methods. For autoclaving, the recommended settings are 30-60°C at 70-100 PSI, for 20-60 minutes.

The microfluidic chips can withstand a maximum stress of 0.37 MPa, ensuring durability during high-pressure experimental conditions.

The wall shear rate in a microfluidic channel is directly proportional to the flow rate. For example, a flow rate of 1 µL/min produces a wall shear rate of approximately 4 s⁻¹ in our microfluidic channels. In in vivo conditions, wall shear rates range from approximately 10 s⁻¹ in veins to around 2000 s⁻¹ in the smallest arteries (doi.org/10.4155/fso.15.28). Therefore, by increasing the flow rate, you can simulate wall shear rates similar to those found in in vivo conditions.

Each microfluidic channel has a dimensions of 41 mm x 4 mm x 75 micrometers.

While the chips can be sterilized, their reuse depends on the specific application and the nature of the materials used. For certain sensitive experiments, single-use may be recommended to prevent contamination and ensure data integrity.

Yes, we offer customization of microfluidic channels tailored to specific research requirements. This includes modifications in channel dimensions, geometries, and materials to optimize fluid flow, mixing, or reaction conditions for specialized applications. For more information or to discuss your specific needs, please contact us.

Yes, you can purchase the microfluidic chips from our Trendyol store.
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Saniber Yazılım Mühendislik ArGe ve Sağlık
Hizmetleri San. Tic. A.Ş.

info@saniber.com.tr
+90 232 502 2730


İzmir Teknoloji Geliştirme Bölgesi, Gülbahçe Mah.
A8 Binası, No: 19, İYTE Kampüsü 35430 Urla/İzmir