Batch-Flow Photoreactor (PR Series)
The Photonic-R Batch-Flow Photoreactor is an advanced light-driven reaction system engineered for precise photon control, reproducibility, and seamless scalability. Designed to bridge the gap between laboratory research and industrial production, the system ensures uniform light distribution, consistent reaction conditions, and high photonic efficiency.
Built on a patented falling-film looping mechanism, the reactor maintains an optimal photon-to-reactant ratio across all scales. This enables faster reaction rates, improved yields, and reliable performance without the traditional challenges of scale-up.
The PR Series is ideal for photochemical synthesis, process development, and industrial applications, offering researchers and engineers a flexible platform for innovation. With modular architecture, tunable wavelength control, and integrated thermal management, it delivers unmatched precision and operational simplicity.
From milligram-scale experiments to high-throughput production, Photonic-R empowers scientists to transform light into a powerful and controllable chemical tool.
• Reactor Type: Batch-Flow Photoreactor
• Technology: Falling Film Looping System
• Wavelength Range: 365–740 nm
• Scalability: Lab to Industrial
• Control: Digital & Programmable
• Application: Photochemical Synthesis, R&D, Scale-Up
The Photonic-R Batch-Flow Photoreactor represents a new generation of photochemical systems designed for precision, scalability, and efficiency. Unlike conventional batch reactors, this system ensures uniform photon distribution using a continuous falling film mechanism.
This approach eliminates common limitations such as poor light penetration and inconsistent reaction zones, resulting in reproducible outcomes and enhanced reaction kinetics.
Engineered for both academic and industrial environments, the system supports a wide range of photochemical transformations, enabling seamless transition from research to production without redesigning the process.
• Uniform Photon Distribution: Ensures consistent irradiation across the entire reaction volume.
• Linear Scalability: Scale reactions from milligrams to kilograms without changing chemistry.
• Modular Reactor Design: Interchangeable modules for different reaction volumes and applications.
• Wide Wavelength Control: Supports UV to visible spectrum (365–740 nm).
• Advanced Thermal Management: Maintains stable temperature independent of light intensity.
• High Reaction Efficiency: Accelerates reaction rates and improves overall yield.
• Digital Process Control: Programmable parameters for reproducibility and automation.
• Patent-Protected Technology: Innovative design developed through advanced research at NIT Patna.
Reactor Type: Batch-Flow System
Operating Volume: 10 mL – 20 L (modular)
Wavelength Range: 365 – 740 nm
Light Source: High-intensity LED array
Photon Flux Control: Adjustable
Temperature Range: -20°C to 120°C
Temperature Stability: ±0.1°C
Stirring Speed: 50 – 2000 RPM
Control System: Digital Interface / Programmable
Material of Construction: Borosilicate Glass / Stainless Steel
Power Supply: 220–240V AC
Safety Features: Overheat protection, light shielding, emergency cutoff
• Pharmaceutical Synthesis
Efficient and scalable drug intermediate production.
• Organic Transformations
Advanced C–H functionalization and photoredox reactions.
• Process Development
Optimization of reaction parameters with high reproducibility.
• Environmental Chemistry
Water treatment and pollutant degradation studies.
• Academic Research
Fundamental photochemistry and catalyst development.
• Industrial Manufacturing
Continuous and scalable photochemical production processes.