Custom Micro Reactor Chip Services
Creative Biolabs delivers end-to-end design, fabrication, and validation of microreactor chips tailored for continuous-flow chemistry, biocatalysis, nanoparticle synthesis, and reaction process intensification. We develop application-specific microreactor architectures that enable precise control over mixing, residence time, temperature, and mass transfer at the microscale.
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Microfluidic technology is one of the most promising innovations in precision manufacturing, delivering exceptional performance beyond expectations in applications such as chemical synthesis, biomedical analysis, and environmental monitoring. Creative Biolabs' micro reactor chip development services integrate cutting-edge microfluidic technologies to provide customized, high-efficiency solutions.
From early-stage feasibility design to functional prototyping and scalable chip optimization, our services support a wide range of reactor formats, including single-channel, multi-channel parallelized reactors, segmented flow systems, and integrated reaction–analysis chips. Each micro reactor chip is customized based on reaction type, solvent compatibility, pressure and temperature requirements, and downstream integration needs, ensuring reproducible performance and enhanced reaction efficiency.
Service Portfolio
Our end-to-end service covers every stage of micro reactor chip development, ensuring seamless integration with your existing workflows.
Our services support full-cycle customization—from materials and structure to packaging—tailored to your specific applications. We design exclusive solutions for each client, ensuring fluid control precision meets required standards while minimizing chip size to maximize reaction efficiency.
Prototyping & Manufacturing
We adopt cutting-edge microfabrication technology to produce high-precision chips. Whether for rapid prototyping or high-volume production, we can promptly respond to your needs and significantly shorten your lead time.
Testing & Performance Optimization
We guarantee that every chip we produce meets the required quality standards. Equipped with high-precision testing tools, we conduct rigorous quality inspections across multiple processes.
Technical Support & After-Sales Service
Our dedicated after-sales team offers prompt responses to all your needs, with remote troubleshooting for simple faults to maximize your time savings.
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Service Advantages
Precision-Driven Technology
Our microfabrication process supports the manufacturing of microscale channel dimensions with tightly controlled tolerances.
Fully Customizable Solutions
Our company offers full-customization services covering all details. We have a wealth of traceable successful cases spanning chip applications across multiple fields.
Expert Team with Deep Industry Experience
Our R&D team comprises PhD-level scientists who possess profound academic expertise and extensive microfluidics manufacturing experience.
Driving Industry Innovation Through Microfluidics
Microfluidics is inherently an innovative platform, and our services amplify this potential by making cutting-edge micro reactor technology accessible and applicable across industries.
Breaking Traditional Technical Barriers
In biomedical research, our micro reactor chips enable single-cell analysis and ultra-low-volume (nanoliter-scale) nucleic acid amplification, addressing the limitations of traditional bulk assays that require large sample volumes and long processing times.
Enabling High-Throughput Innovation
In the field of new drug R&D, our multi-channel microreactor chips support the simultaneous synthesis of nearly a hundred drug candidates. This significantly shortens the screening time for lead compounds. This high-throughput, time-efficient drug screening model is a promising approach for new drug R&D, and its rational application can greatly reduce the overall R&D cycle.
Fostering Cross-Industry Integration
By integrating microfluidic technology with emerging technologies such as artificial intelligence, our company can develop a range of highly innovative and practical integrated smart chips capable of real-time data monitoring.
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Service Applications
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Applications
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Description
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Chemical Engineering
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Fine chemical synthesis, catalyst screening, continuous flow reactions
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Environmental Monitoring
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Water/air pollutant detection, heavy metal analysis, microbial monitoring
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Food Safety
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Rapid detection of pathogens, pesticide residues, and food additives
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Client Testimonials
"The Creative Biolabs team evaluated our system in detail and designed a micro reactor chip with optimized channel length and heat-transfer performance. The chip operated stably under continuous conditions, with reproducibility far superior to our previous setup."
— Dr. Sarah Chen, R&D Director
"The portable microfluidic chips for water testing have made our on-site monitoring much more efficient. We can now get accurate results in minutes, which is crucial for our environmental compliance work."
— Mark Johnson, Environmental Manager
"The micro reactor chip we customized reduced our lab’s reagent costs by 30% and improved reaction reproducibility. The team listened closely to our needs and provided clear technical documentation—smooth collaboration overall."
— Dr. Elena Carter, R&D Specialist
"We needed a chip for small-scale catalyst testing, and their solution delivered consistent flow control. Integration with our existing setup was straightforward, and post-delivery support addressed our questions promptly."
— Michael Torres, Process Development Engineer
"Their prototyping service helped us validate our design in just 3 weeks. The final chip’s microchannel precision enhanced our cell analysis accuracy without compromising speed—exactly what we required."
— Dr. Sophia Lee, Biomedical Research Lead
"As a mid-sized pharma firm, we valued their flexible customization. The chip optimized our drug metabolite screening, and the team’s expertise in microfluidics ensured we avoided common integration pitfalls."
— Dr. Raj Patel, Formulation Scientist
Published Data
Microfluidic bioreactor made of cyclo-olefin polymer for observing on-chip platelet production
The researchers presented a transparent microfluidic bioreactor made of cyclo-olefin polymer (COP) with which to observe the process of platelet-like particle (PLP) production under a bright-field, which allows us to obtain image data at a high sampling rate. They succeeded in fabricating the COP microfluidic bioreactor with a 3D microchannel. They investigated the bonding strength of COP-COP layers and confirmed the effectiveness of the microfluidic bioreactor. They succeeded in observing PLP production under a bright-field using the presented microfluidic bioreactor and confirmed that PLP fragmented in a narrow area of proplatelet-like protrusions.
Fig.1 Conceptual image of the microfluidic bioreactor.1,2
References
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Kumon, Hiroki, et al. "Microfluidic bioreactor made of cyclo-olefin polymer for observing on-chip platelet production." Micromachines 12.10 (2021): 1253. https://doi.org/10.3390/mi12101253
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Distributed under Open Access license CC BY 4.0, without modification.
Created December 2025
FAQs
Q: What types of reactions and applications are best suited for micro reactor chip development?
A: Micro reactor chips are particularly well suited for reactions that demand precise control, efficient heat and mass transfer, and high reproducibility. Typical applications include continuous-flow organic synthesis, fast or highly exothermic reactions, hazardous or unstable intermediate generation, enzymatic catalysis, multiphase reactions, and controlled synthesis of fine chemicals or nanomaterials.
Q: Can the micro reactor chip be fully customized for our specific reaction system?
A: Yes. All of our micro reactor chips are custom-designed rather than based on off-the-shelf templates. We tailor channel geometry, reactor length, mixing structures, thermal management zones, and port configurations according to reaction kinetics, residence time requirements, fluid properties, and scalability considerations.
Q: What materials are available for micro reactor chip fabrication?
A: We commonly work with glass, silicon, quartz, PDMS, and advanced polymer substrates. Each project begins with an evaluation of solvent resistance, temperature and pressure limits, surface adsorption risks, and downstream scale-up compatibility, allowing us to recommend the most appropriate material rather than a one-size-fits-all option.
Q: Do you provide post-delivery technical support and optimization assistance?
A: Yes. Project delivery includes detailed technical documentation, operating guidelines, and parameter recommendations. We also offer post-delivery support during initial implementation and can assist with design iterations, performance optimization, or adaptation to new reaction conditions as your project evolves.
Q: What is the typical development timeline from project initiation to delivery?
A: The timeline depends on design complexity and validation depth. A clear milestone-based schedule is defined at project kickoff to ensure transparency and predictable delivery.
