Engineering Light-Driven Chemical Synthesis
Photochemistry is redefining how chemical reactions are designed and scaled. At PhotonicR, we harness controlled light energy to enable efficient, selective, and reproducible transformations across research and industrial applications.
Our batch-flow photoreactor technology ensures uniform photon distribution, precise reaction control, and seamless scalability — overcoming traditional limitations such as poor light penetration and inconsistent results.
Core Technology Pillars
Our photoreactor systems are engineered to eliminate variability and deliver precise, reproducible results. Each pillar is designed to ensure consistent performance from laboratory research to industrial-scale applications.
Uniform Photon Distribution
Advanced optical design ensures consistent light exposure throughout the reaction medium, eliminating uneven irradiation and enabling reliable, reproducible photochemical reactions.
Thermal Stability
Integrated temperature control systems maintain stable reaction conditions, preventing overheating and unwanted side reactions during high-intensity irradiation.
Wavelength Precision
Tunable LED systems allow precise control over light wavelength, enabling optimal interaction with specific photocatalysts and improving reaction efficiency.
8–10×
Faster reaction performance through optimized photon utilization.
Linear
Scalable design maintaining consistent performance across reactor sizes.
From Laboratory Research to Industrial Scale
Reaction Development
Conduct controlled photochemical experiments at laboratory scale with precise photon distribution and reproducible conditions.
Process Optimization
Fine-tune key parameters such as light intensity, reaction time, and temperature to achieve maximum efficiency and consistency.
Scale-Up Execution
Seamlessly scale reactions using modular reactor systems while maintaining uniform irradiation and performance across volumes.
Beyond Hardware: A Complete Photonic Ecosystem
Photonic-R extends beyond instrumentation—delivering integrated solutions that connect engineering, chemistry, and digital intelligence into one seamless workflow.
Custom Optical Engineering
Tailored LED architectures and reactor geometries designed to match specific absorption profiles, ensuring maximum photon utilization and reaction efficiency.
Process Optimization
Translate conventional chemistry into photonic workflows with optimized parameters, enabling reproducible and scalable reaction conditions.
Digital Integration (LIMS)
Seamless connectivity with laboratory systems through APIs, enabling data tracking, automation, and intelligent experiment management.
Engineering Precision, Quantified
Every Photonic-R system is engineered to deliver measurable, repeatable, and industry-grade performance across critical reaction parameters.
| PARAMETER | OPERATING RANGE | PRECISION |
|---|---|---|
| Photon Intensity | 0.1 — 500 mW/cm² | ±0.05% stability |
| Wavelength Control | 365 — 740 nm | ±10 nm FWHM |
| Temperature Range | -20°C to +120°C | ±0.1°C accuracy |
| Stirring Speed | 50 — 2000 RPM | Digitally controlled |
| Pulse Modulation | 1 Hz — 100 kHz | Nanosecond resolution |