Advanced UV LED Photochemistry

Biopharmaceutical companies and CDMO/CRO organizations are under pressure to accelerate discovery, generate high-quality data, and build scalable processes. Traditional light-driven chemistry often falls short of meeting these expectations due to fundamental limitations in equipment, control precision, and scalability. Our UV LED photochemical and microfluidic solutions address these pain points by enabling:

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    Precise control of light, temperature, and flow fields.

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    Multi-wavelength UV LED light sources. Clean, stable, energy-efficient.

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    High-throughput exploration for fast route development.

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    Highly reproducible and quantifiable reaction environments.

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    Seamless transition from mg-level experiments to continuous-flow scale-out.

AI–Chip–Microfluidics Integrated Intelligent Photochemical Platform

We have developed an industry-leading intelligent photochemical platform that delivers precise and coordinated control of light, temperature, and fluid flow, enabling closed-loop automation across the entire photochemical workflow-from design and execution to real-time monitoring and optimization. This engineering breakthrough provides a predictable, verifiable, and scalable foundation for green chemistry and continuous-flow production, supporting seamless transition from laboratory R&D to large-scale manufacturing.

  • Fully Automated Closed-Loop Workflow

    Design-Execute-Monitor-Optimize

  • Multimodal Real-Time Monitoring & Precision Control

    ±0.1°C temperature accuracy with integrated real-time sensing

  • Ultra-High-Throughput Parallel Reaction Capability

    Micro-scale parallel processing with hundreds of reaction conditions per run

  • Tunable Full-Spectrum Semiconductor Light Source

    260–650 nm wavelength-precise AlGaN/InGaN LED system

  • Third-Generation Semiconductor Tunable Light Source Design
    Third-Generation Semiconductor Tunable Light Source Design

    We enable precise and dynamic wavelength tuning from 260 to 650 nm using a tunable LED light source system combined with high-precision optical power sensing and closed-loop feedback control, ensuring optimal illumination conditions for photochemical reactions.

  • AI-Driven Intelligent Modeling & Photochemical Design Optimization
    AI-Driven Intelligent Modeling & Photochemical Design Optimization

    We develop multimodal data–driven AI models to efficiently design photocatalytic oxidation, reduction, and coupling reaction pathways and precisely optimize reaction conditions, delivering higher prediction accuracy.

  • Microfluidic High-Throughput Reaction Control Technology
    Microfluidic High-Throughput Reaction Control Technology

    We build a fully automated, multi-channel high-throughput reaction system based on microfluidic technology, enabling precise reagent dosing, accurate control of reaction conditions, and high-throughput reaction execution to support efficient experimentation.

Reactions Our Systems Support

Our UV LED photochemical systems are designed for liquid-phase photochemical reactions or solid–liquid reactions using liquid carriers, supporting a wide spectrum of applications across drug discovery, process development, and continuous manufacturing.

  • Photocatalytic Reaction Development

  • Photochlorination / Photocyclization / Photooxidation

  • Continuous-Flow Photochemistry & Scale-Up

  • Early-Stage Screening & Route Exploration

  • API and Key Intermediate Synthesis

  • Continuous Flow Manufacturing & Process Intensification

  • Photoredox Catalysis Optimization

  • Academic & Institutional Research

  • Chlorination Reaction

  • Polymerization Reaction

  • Sulfonation Reaction

  • Heavy Metal Recovery

  • Isomerization Reaction

  • Oxidation Reaction

  • Degradation Reaction

  • Cycloaddition Reaction

  • Bromination Reaction

  • Nitrosation Reaction

  • Coupling Reaction

  • Heavy Atom Substitution Reaction

Explore Our Featured Products & Custom Cases
Continuous Flow Photoreactor

Experimental Continuous Flow Reactor

Providing continuous flow photochemical reaction systems from the hundred-kilogram to ton scale, equipped with customized drug-catalysis-specific UV-LED light sources to significantly enhance reaction rate, selectivity, and yield. Providing an efficient, stable, and scalable photochemical manufacturing platform for drug research and production.

Continuous Flow Photoreactor

Pilot Production Continuous Flow Reactor

· UV-LED
Delivers high-power, catalysis-specific UV-LED illumination to enhance reaction rate, selectivity, and yield in pharmaceutical synthesis.
· Modular Channels
Supports flexible combination of multiple units for seamless scaling from lab to production.
· Material Options
Available in high-transparency quartz or corrosion-resistant Hastelloy to meet diverse biopharma requirements.
· Pilot Scale-Up
Enables rapid, efficient transition to kilogram/ton-scale continuous flow manufacturing.

From Lab to Pilot Scale Photoreaction Solutions

From lab-scale research to pilot-scale production, our photochemical systems empower your team to explore, optimize, and scale a wide range of light-driven reactions with precision and reliability.

Lab-Scale Photoreactors

Ideal for batch parallel experiments, improving research efficiency across chemistry and biology, compatible from batch to flow chemistry.

Featured Product: Parallel & High-Throughput Photoreactors

  • Wavelength Range:250–975 nm (FWHM ±6 nm)
  • Light Intensity: Continuously adjustable
  • Temperature Control: High & ultra-low temperature, optional functions, ±3℃ precision

Pilot-Scale Photoreactors

Supports seamless scale-up from lab experiments to pilot production with flexible material and volume options.

Featured Product: Microchannel Photoreactors, Continuous Flow Reactors

  • Material Options: Glass, quartz, polymer, FEP polymer
  • Wavelength Range: 250–975 nm (FWHM ±6 nm)
  • Light Intensity: Continuously adjustable
  • Volume: 10/50/100 mL to 10/50/100 L, customizable for larger volumes
  • Temperature Control:High & ultra-low temperature, optional functions, ±3℃ precision
Precision Engineered UV LED Light Source

Our photoreaction systems are engineered based on comprehensive thermal and photonic simulations, incorporating advanced cooling and protection mechanisms, delivering precisely controllable LED light arrays for reliable lab and pilot-scale photochemistry.

Thermal & Photonic Simulation

Thermal & Photonic Simulation

Designed based on comprehensive thermal and optical simulations to ensure uniform light distribution and precise temperature control.

 
Cooling & Protection Systems

Cooling & Protection Systems

Advanced cooling design ensures stable operation of the light source. Protective mechanisms extend LED lifespan and maintain high-precision performance.

 
LED Light Arrays

LED Light Arrays

Controllable wavelength range: 250–975 nm (FWHM ±6 nm). Continuously adjustable light intensity to meet diverse experimental requirements.

High-Performance System Architecture
 

High-Efficiency, High-Reliability UV LED Sources

Ultraviolet light sources characterized by high luminous efficacy and superior reliability.

 

Continuous, Tunable Broad-Spectrum Light Sources

Broad-spectrum continuous light sources (260nm~650nm) featuring continuous tunability, exceptional uniformity, and high reliability.

 

MEMS-Based Temperature Control Chips

Temperature control chips fabricated using MEMS (Micro-Electro-Mechanical Systems) technology.

 

High-Throughput Microfluidic Chip Arrays

Microfluidic chip arrays engineered for high-throughput applications.

Core Values We Deliver to Your
R&D and Production Strategy
  • Precise, Quantifiable Reaction Control

    Traditional laboratory reactors and benchtop instruments only provide coarse control over light and temperature, limiting experiments to qualitative observations. Our systems deliver finely tunable, data-dense reaction conditions-enabling quantitative analysis and reproducible validation.
  • Accelerated Development with Ultra-Low Material Consumption

    Conventional laboratory reactors and bench-scale instruments require large sample volumes and extended cycle times. Our microfluidic platform performs milligram-scale experiments with significantly shorter cycle times, lowering development costs and enabling broader exploration of reaction parameters.
  • Higher Yields and Shorter Cycle Times in Production

    Unlike traditional chemical synthesis equipment, which suffers from inefficient heat/ mass transfer and inconsistent illumination, our continuous-flow design ensures superior process control-resulting in higher yields, shorter production cycles, and safer operation, making it ideal for cGMP pharmaceutical manufacturing.
  • Next-Generation Tunable UV LED Illumination

    Based on III-V wide-bandgap semiconductor technology, our tunable LED light sources offer lower energy consumption, longer lifetime, precise wavelength control, and stable optical output-outperforming traditional xenon or mercury lamps across all performance metrics.
  • High-Precision Thermal Control for Stable, Reproducible Outcomes

    Our MEMS-based temperature control modules provide rapid response and high accuracy, ensuring consistent yields and significantly enhancing experimental reproducibility.
  • Seamless Scalability From Lab to Pilot to Production

    The integration of continuous-flow photochemistry and high-throughput microfluidics enables easy scale-out through parallelization-allowing researchers to accelerate discovery while supporting manufacturers in scaling capacity seamlessly across all stages.
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From Proven Engineering to
Production-Ready Solutions

As a vertically integrated, third-generation semiconductor–based UV LED solution provider, we deliver full-chain support from optical design, thermal management, and data-driven simulation and validation to mass-production readiness.

Backed by extensive real-world applications, verified performance data, and long-term reliability testing, our solutions are trusted by leading brands to reduce development risk and accelerate time to market.

Get a Customized System Proposal

Share details about your application and requirements. Our engineering team will assess technical feasibility and define the optimal solution based on your specific requirements.