Design and Manufacturing of Custom Lab-on-Chip, Organ-on-Chip, and MicroNeedle Devices for Cutting-Edge Research
Patent-pending manufacturing technologies enabling integration of bio-compatible nanofiber, microneedle, and electrochemical sensor components into composite milli and microfluidic devices.
Tailored microfluidic device design and prototyping for specific research applications. From concept to functional prototype with rapid iteration capabilities.
Precision-engineered organ-on-chip platforms (device only) designed for tissue culture and drug testing applications with customizable channel geometries.
Advanced microneedle patches optimized for wearable biosensor integration, transdermal delivery, and minimally invasive sampling applications.
Seamless integration of electrochemical sensors into microfluidic systems for real-time monitoring and detection capabilities.
Expertise in biocompatible nanofiber integration and surface functionalization for enhanced biological interactions.
Comprehensive research-as-a-service offerings, from feasibility studies to full device development and validation support.
Specialized devices and platforms designed to accelerate your research and development initiatives.
Next-generation wearable biosensor research platforms
Our microneedle patches are specifically engineered for biosensor research applications, offering unprecedented access to interstitial fluid biomarkers.
Lab-on-chip and organ-on-chip platforms
Precision-engineered microfluidic devices tailored to your specific research requirements, from simple flow cells to complex multi-chamber systems.
Leveraging patent-pending manufacturing technologies to deliver innovative solutions for the most demanding research challenges.
Our unique manufacturing approach enables the seamless integration of multiple functional components that traditionally require separate fabrication processes. This includes the ability to combine biocompatible nanofibers, precision microneedles, and sensitive electrochemical sensors within a single device architecture.
The result is a new class of composite devices that offer enhanced functionality, improved reliability, and reduced complexity for researchers pushing the boundaries of biosensing and microfluidic applications.
Our team's expertise extends beyond our listed capabilities. We specialize in developing custom solutions for unique research challenges, working closely with clients to transform concepts into functional devices. Whether you need modifications to existing designs or entirely new device architectures, we're equipped to deliver solutions that meet your specific requirements.
Supporting breakthrough research across multiple domains
Continuous monitoring platforms for real-time biomarker detection
High-throughput screening and pharmacokinetic studies
Rapid, sensitive detection systems for clinical applications
Advanced platforms for cellular studies and tissue engineering
Microfluidic sensors for water quality and environmental analysis
Custom devices for patient-specific therapeutic applications
Let's discuss how our custom microfluidic and biosensor solutions can advance your project.
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