All-in-One Droplet Microfluidic Platform

Creative Biolabs has been dedicated to the manufacturing of all-in-one droplet generation systems, integrating workflows such as droplet generation, monitoring, control, and processing into a single system. This offers a one-stop solution to address the comprehensive needs of microfluidic technology.

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

Creative Biolabs' advanced all-in-one droplet microfluidic platform empowers researchers to conduct microfluidic experiments with ease, while our high-precision, automated platform provides industry with a lasting solution for microfluidic production processes.

Fig. 1 Polystyrene (PS) multilayer microfluidic chip fabrication.^1,4

A droplet generation all-in-one system is an integrated platform that precisely generates, monitors, and controls monodisperse micro or nanoscale droplets by manipulating immiscible fluids. The system incorporates fluid handling, droplet formation, real-time monitoring, and parameter regulation into its workflow, ensuring high precision and automation in operation.

Our Services

We offer a complete suite of services centered around our state-of-the-art droplet generation all-in-one system.

Services	Descriptions
System Sales	Turnkey droplet generation systems tailored to specific research needs. Custom design and fabrication of microfluidic chips tailored to specific experimental. Specialty fluids and reagents specifically formulated to optimize droplet generation efficiency and consistency.
Customization	Specialized customization is highly compatible with your existing laboratory equipment and related workflows. The system is adapted to fit your circumstances, rather than requiring you to change everything you currently have to accommodate the system.
Installation	We provide a professional team to conduct installation and calibration of the system, ensuring that you can start using it quickly and smoothly.
Technical Support	Our specialized after-sales technical support department is available to promptly resolve any operational problems you may encounter. We provide high-grade replacement parts and after-sales system upgrade services, helping to extend the system's operational lifespan.
Application Development	We develop tailored collaboration plans specifically for your unique research objectives, adjust droplet parameters based on the specific needs of your application, and ensure the system's performance meets your requirements through rigorous validation studies and proof-of-concept experiments.
Consumables	High-quality microfluidic chips in various configurations. High-quality replacement parts and system upgrades designed to extend operational lifespan and enhance performance.
Accessories	We offer a variety of high-quality microfluidic chips with different configurations. For diverse needs, we formulate specialized fluids and reagents to optimize droplet generation efficiency and ensure the stable production of high-quality droplets.

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Service Advantages

Our droplet generation all-in-one system stands out from conventional solutions through several key advantages.

Scalability

Our system can meet both small-scale preliminary research applications and high-throughput production environments.

Cost-Effectiveness

Our all-in-one design eliminates the need for multiple standalone instruments, thereby reducing both initial capital investment and long-term operational costs.

Rapid Turnaround

Our optimized workflows streamline experiment setup, greatly reducing preparation time compared with traditional methods.

Unmatched Integration

We offer an integrated system combining droplet generation, real-time monitoring, and intelligent control. This all-in-one system is more convenient and hassle-free to use.

Exceptional Precision

Our system generates droplets with the features of high precision, high stability, and high automation. It ensures highly consistent droplet sizes, keeping the coefficient of variation within a certain range.

User-Friendly Interface

Our system features an intuitive operation interface and specially compiled detailed user manuals, ensuring that researchers can quickly get started with its operation.

Service Process

Consultation & Assessment - Initial discussion to understand your specific research goals and requirements.
System Design & Customization - Tailoring of system parameters to match your application needs.
Installation & Training - Professional installation, calibration, and hands-on training sessions.
Operation & Optimization - Fine-tuning of parameters for optimal results and regular performance checks and maintenance.
Long-Term Support - Ongoing technical assistance, software updates, system upgrades, troubleshooting, and problem resolution.

Applications

Our droplet generation all-in-one system finds applications across various scientific and industrial fields.

Single-Cell Analysis: Our system supports high-throughput single-cell encapsulation, which can be applied to genomic and proteomic research for further single-cell sequencing or protein expression profiling analysis.
Drug Discovery & Development: Our platform supports miniaturized drug screening assays, reducing reagent consumption and accelerating the identification and optimization of lead compounds.
Material Science: The system enables controlled synthesis of micro- and nanoparticles with uniform size distribution. These particles of varying sizes play a significant role in multiple fields, including catalytic reactions, electronic components, and cosmetics production.
Synthetic Biology: The system enables compartmentalization of in vitro transcription and translation reactions, thus efficiently synthesizing target nucleic acids or proteins. It also supports directed evolution experiments, which rapidly screen for high-performance biomolecules or metabolic pathways by simulating natural selection.
Food Science: The system supports emulsion-based food products' formulation and characterization, enhancing texture and stability. This prolongs product shelf life and enhances product competitiveness.

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Customer Testimonials

"This system streamlined our high-throughput single-cell encapsulation work. Reagent consumption dropped by nearly 30%, and the remote maintenance support saved us time when we had a minor issue last month."

— Dr. Sarah Johnson, R&D Director

"For our protein expression studies, the compartmentalized reaction feature works reliably. The team's on-site training covered all key operations, and the system has run smoothly without glitches so far."

— Dr. Elena Marquez, Molecular Biologist

"We switched to this all-in-one system to avoid compatibility problems. It integrates droplet generation and monitoring well, and the regular software updates keep it aligned with our evolving research needs."

— Prof. James Wilson, Materials Science

"The system met both our small-scale preliminary tests and large-scale production demands. When we needed to adjust droplet parameters, the technical team responded with clear guidance within 24 hours."

— Dr. Raj Patel, Diagnostic Researcher

"We've used the system for 6 months in our lab. It delivers consistent droplet sizes, and the intuitive interface let our new researchers get started quickly. The 3-month maintenance reminder was also helpful."

— Dr. Rajiv P., Chemical Engineer

Published Data

Interfacial tension driven open droplet microfluidics

A study demonstrates for the first time an open channel droplet microfluidic system that autonomously generates droplets at low capillary numbers. Hundreds of droplets are produced in a run using only an open channel, pipettes, and a commercially available carrier fluid. This platform offers enhanced usability, direct access to the droplet contents, easy manufacturability, compact footprint, and high customizability.

Interfacial tension driven open droplet microfluidics. (OA Literature) Fig.2 Device design, workflow, and manipulation of droplets.^2,4

Design of an automated platform for 3D cellular cultures

A study developed an automated high-throughput microfluidic platform capable of culturing organoids and other 3D cellular cultures for continuous monitoring of 3D growth, morphology, and biochemical analysis. The reversibly clamped two-layer chamber chip consists of a 200-well array and an overlying layer of fluidic channels. Each well unit in the lower layer serves as a culture for organoids or other 3D cellular structures.

Fig. 3 Automated microfluidic 3D cellular and organoid culture platform for dynamical drug perturbations.^3,4

References

Oliveira, B.; Veigas, B.; Fernandes, A.R.; Águas, H.; Martins, R.; Fortunato, E.; Baptista, P.V., et al. "Fast Prototyping Microfluidics: Integrating Droplet Digital Lamp for Absolute Quantification of Cancer Biomarkers." Sensors 2020, 20, 1624. https://doi.org/10.3390/s20061624
Jian Wei Khor, et al. "Interfacial Tension Driven Open Droplet Microfluidics." Advanced Materials Interfaces (2023): 10, 2202234. https://doi.org/10.1002/admi.202202234
Schuster, B., Junkin, M., Kashaf, S.S. et al. "Automated microfluidic platform for dynamic and combinatorial drug screening of tumor organoids." Nat Commun 11, 5271 (2020). https://doi.org/10.1038/s41467-020-19058-4
Distributed under Open Access license CC BY 4.0, without modification.

Created August 2025

FAQs

Q: What range of droplet sizes can your system generate?

A: Our standard systems can generate all common sizes of droplets. Depending on your specific application requirements, we support custom droplet size.

Q: Can the system handle high-viscosity fluids?

A: Yes, our advanced pressure-driven systems can handle fluids with appropriate modifications.

Q: How often does the system require maintenance?

A: Ordinarily, it is recommended that routine system maintenance be performed every 3-6 months, with the specific frequency depending on your regular usage intensity. If needed, our technicians can provide remote guidance for you to perform maintenance yourself.

Q: Does the system work for both small-scale research and high-throughput production?

A: Absolutely. Our system supports small-scale preliminary tests with minimal reagent usage, while also enabling high-throughput production. Moreover, we can ensure stable droplet quality is maintained across different production scales.

Ready to revolutionize your microfluidic research or production? Contact our team today to discuss how our droplet generation all-in-one system can meet your specific needs.

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Ready to transform your preclinical research? Get a Quote Now

Reach out to our team today to book a consultation, talk through your specific goals, and find out how our organ-on-chip platform can deliver faster, more reliable results—cutting costs, speeding up timelines, and fueling the breakthroughs that count.

Your next scientific breakthrough starts here.