Droplet Generator and Flow Chemistry Microfluidic Solutions

Creative Biolabs provides professional microfluidic development services, specializing in droplet generators and flow chemistry. Our customized solutions effectively design and optimize microfluidic platforms for efficient droplet generation, reaction process control, and flow chemistry applications. Our team provides comprehensive support tailored to your needs.

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Fig. 1 Simplified microfluidic system. (Wei, et al., 2005)

Creative Biolabs remains at the forefront of microfluidic technology, providing microfluidic development services for droplet generators and flow chemistry systems. We tailor solutions to address the unique challenges faced by academic laboratories, pharmaceutical enterprises, materials science institutions, and industrial manufacturers, bridging the gap from concept to scalable production-ready applications.

Our Service Portfolio

Leveraging precision microfabrication, modular design, and advanced flow control, our team provides a comprehensive suite of microfluidic services that transform reaction performance, scalability, and reproducibility.

Flow Continuous Reaction Chip Development Service

We design and fabricate continuous flow reaction chips tailored for high-efficiency synthesis and precise kinetic control. These systems enable seamless scaling from laboratory experiments to pilot production, ensuring stable temperature gradients, uniform residence time distribution, and minimal reagent waste.

Micro Reactor Chip Development Service

Our micro reactor chips integrate multiple reaction zones for complex chemical sequences under continuous flow. With customizable channel geometry, temperature control, and pressure resistance, we help clients achieve enhanced mixing, selectivity, and safety compared to conventional batch reactors.

Flow Photochemistry Chip Development Service

Specialized for light-driven reactions, our photochemistry chips combine optimized optical transparency with controlled fluid dynamics. The platform supports diverse photo-catalytic and photo-polymerization processes, enabling uniform irradiation and high photon utilization for improved quantum yields and reaction precision.

Ionic Polymerization Chip Development Service

We provide microfluidic chip platforms optimized for cationic, anionic, or coordination polymerization processes. These chips offer precise initiation, propagation, and termination control, allowing researchers to synthesize polymers with narrow molecular weight distribution and tunable chain architectures.

Emulsion Polymerization Chip Development Service

Our emulsion polymerization chips enable the controlled generation of monodisperse droplets that serve as confined reaction microreactors. Through accurate tuning of droplet size and surfactant concentration, we support the synthesis of uniform polymer particles and nanocapsules for coating, drug delivery, and materials applications.

Gas Bubble Microfluidic Synthesis Service

This service utilizes bubble-assisted flow systems for reactions involving gaseous reactants or intermediates. By controlling gas–liquid interfaces within microchannels, we enable efficient gas–liquid mass transfer.

Particle Synthesis Services

We offer microfluidic particle synthesis solutions capable of producing polymeric, metallic, or hybrid nanoparticles with exceptional uniformity.

Encapsulation Services

Our encapsulation services use droplet-based microfluidic systems to precisely encapsulate cells, biomolecules, or active compounds within microgels, liposomes, or polymer shells. With excellent reproducibility and high encapsulation efficiency, we empower clients to engineer functional microcarriers for drug screening, cell assays, and controlled release applications.

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Key Applications

Our Droplet Generator and Flow Chemistry services have a wide range of applications, empowering innovation across sectors.

Materials Science

Our droplet generators enable precise production of microspheres and nanoparticles with uniform size and stable quality, which are used to manufacture versatile materials with specific properties. Our flow chemistry systems, on the other hand, support the synthesis of polymers and composite materials, and can flexibly adjust the performance parameters of these materials.

Environmental Testing & Monitoring

Our microfluidic systems can be used for water quality testing and pollutant identification. Our flow chemistry systems can be integrated into portable devices, and their rapid response and portability help environmental protection agencies conduct on-site rapid testing, enabling accurate identification of pollutants such as heavy metals and pathogens in water sources.

Biomedical Research

Our droplet generators can encapsulate individual cells or biomolecules to form independent "micro-reactors," enabling high-throughput research. Our flow chemistry systems, on the other hand, allow precise regulation of reaction conditions. They are often used in toxicology testing and drug screening to reduce human error and ensure the consistency of experimental results.

Pharmaceutical & Biotech Manufacturing

Our flow chemistry services can help enterprises reduce raw material waste, improve product purity, and more effectively scale up production. Additionally, the droplet generators we develop can support the creation of novel drug delivery systems, enabling controlled and sustained release effects.

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Client Testimonials

"We worked with the team on a droplet generator for single-cell studies. The system integrates smoothly with our lab tools, and their post-delivery support quickly resolved minor setup issues. It made our sample prep much more consistent."

— Sarah Lee, Founder & CEO

"For our pharmaceutical flow chemistry needs, their custom system cut down on reagent waste. The team listened closely to our reaction requirements, and the final setup runs reliably with minimal oversight. Good, practical service overall."

— James Wilson, Process Engineering Manager

"As a small materials startup, we needed a flexible droplet system. They adapted the design to our budget and timeline, and the system's easy to adjust for different formulations. Their training helped our team get up to speed fast."

— Dr. Elena Martinez, Lead Researcher

"We used their services for an environmental testing flow system. It's portable and delivers accurate results, which is key for our fieldwork. The team was responsive when we had questions about fluid compatibility."

— Lisa Torres, Quality Assurance Manager

"Their microfluidic setup for our polymer synthesis project has improved reaction efficiency. They walked us through each design step, and the system's held up well during long runs. No unnecessary frills—just what we needed."

— Mark Wilson, Operations Director

Published Data

Hybrid digital-droplet microfluidic chip for applications in droplet digital nucleic acid amplification

A study combined Digital Microfluidics (DMF) and Droplet Microfluidics (DrMF) on a single substrate, where DMF enables droplet mixing and serves as a controlled liquid supplier for high-throughput nanoliter droplet generators. The droplets were generated in a flow-focused region under dual pressure conditions: negative pressure applied to the aqueous phase and positive pressure to the oil phase. The research evaluated droplets produced using the hybrid DMF-DrMF system in terms of volume, velocity, and production frequency, and compared them with those generated by standalone DrMF devices.

Schematic diagram of droplet generation using hybrid DMF-DrMF equipment. (OA Literature) Fig.1 Droplets produced with a hybrid DMF-DrMF device.^1,3

A 3D-printed standardized modular microfluidic system for droplet generation

A research paper introduces a modular microfluidic system utilizing projection-based microlithography 3D printing technology for droplet generation. All modules feature standardized cubic structures with leak-proof connectors, while their 3D capabilities enhance functionality. The team developed specialized functional modules that can be flexibly assembled into droplet generators capable of producing various types including single droplets, alternating droplets, merged droplets, and Janus particles. The compact design and simplicity of these droplet generators make them ideal for integration into multifunctional microfluidic systems.

Fabrication of Droplet Generation Modules. (OA Literature) Fig.2 Schematics of the standard droplet generation modules.^2,3

References

Coelho, Beatriz J., et al. "Hybrid digital-droplet microfluidic chip for applications in droplet digital nucleic acid amplification: design, fabrication and characterization." Sensors 23.10 (2023): 4927. https://doi.org/10.3390/s23104927
Chen, Junyi, et al. "A 3D-printed standardized modular microfluidic system for droplet generation." Biosensors 12.12 (2022): 1085. https://doi.org/10.3390/bios12121085
Distributed under Open Access license CC BY 4.0, without modification.

Created October 2025

FAQs

Q: How customizable are Creative Biolabs' flow chemistry and droplet generator chips?

A: All of our chips are fully customizable. We tailor parameters such as channel geometry, material composition (e.g., PDMS, glass, silicon), temperature and pressure range, and reagent compatibility. Our engineers work closely with each client to optimize chip design for specific reactions, including polymerization, nanoparticle synthesis, and encapsulation processes.

Q: Can I integrate light or gas inputs into my microfluidic setup for photochemical or gas-involved reactions?

A: Yes. Creative Biolabs offers specialized flow photochemistry Chips with transparent optical paths and gas bubble microfluidic systems for controlled gas–liquid interactions. Both configurations support fine-tuned energy and mass transfer, ensuring stable operation for reactions involving photons or gaseous reactants.

Q: What types of materials or reactions are suitable for microfluidic polymerization chips?

A: Our Ionic Polymerization and Emulsion Polymerization chip systems can accommodate a wide range of monomers and solvents. They are suitable for anionic, cationic, coordination, and radical polymerizations, as well as emulsion-based particle fabrication, allowing production of monodisperse polymer microspheres and nanocapsules with tunable physical properties.

Q: Do you provide encapsulation solutions for biological samples or active ingredients?

A: Absolutely. Our encapsulation services leverage droplet-based microfluidics to encapsulate cells, enzymes, or active molecules within hydrogels, liposomes, or biodegradable polymers. The process ensures gentle handling, high encapsulation efficiency, and consistent capsule morphology, supporting diverse biomedical and material applications.

Q: How do I start a custom microfluidic project with Creative Biolabs?

A: You can contact our microfluidic specialists through the inquiry form on our website. After discussing your project goals and target reactions, we will design a tailored chip prototype and provide a detailed proposal covering specifications, fabrication timeline, and optional testing services.

Q: Are all Creative Biolabs' microfluidic services for research use only?

A: Yes. All our microfluidic and flow chemistry solutions are for research use only, not for clinical use. Our mission is to provide high-performance tools that accelerate innovation and enable precise, reproducible experimentation across academic and industrial research sectors.

Take the Next Step to Elevate Your Work

Contact us today for a free consultation. Our team will learn about your project, share examples of how we've supported similar work, and outline a roadmap to turn your vision into a practical, high-performance microfluidic system.

Ready to transform your preclinical research? Get a Quote Now

Partner with Creative Biolabs to customize your droplet and flow chemistry microfluidic platform. Our scientists collaborate closely with you to ensure optimal chip design, reproducible operation, and data-driven scalability for your next-generation research or product development.