Shanghai Zhongjing Experimental Ozone Generator: Empowering Scientific Grade Precision Oxidation, Unlocking New Experimental Possibilities

When the oxidation reaction in the laboratory repeatedly tries and mistakes due to fluctuations in ozone concentration, when interdisciplinary research is forced to compromise due to insufficient equipment adaptability, and when precision processes are difficult to break through due to poor data repeatability - Shanghai Zhongjing Experimental Ozone Generator, with 20 years of research and development experience in scientific equipment, provides "accurate, stable, and flexible" oxidation solutions for global scientific research teams, making every experiment closer to truth.

Core Technology: Redefine Research Grade Ozone Generation Standards

1. High frequency DBD discharge technology: dual breakthroughs in concentration and accuracy

Abandoning the "concentration bottleneck" of traditional discharge technology, Shanghai Zhongjing adopts customized high-frequency corona discharge (DBD) modules, combined with high borosilicate glass discharge tubes (breakdown strength 20kV/mm), to achieve stable output of 120-148mg/L high concentration ozone under oxygen source conditions, with a control accuracy of ± 0.5mg/L. Whether it is the "nanoscale cleanliness" of semiconductor wafer cleaning or the "molecular level reaction control" of catalytic material research, they can meet the strict requirements of precision processes such as ALD/PLD for ozone concentration, and the repeatability of experimental data is directly improved to>95%.

2. Dual cooling and heating management system: stable operation for 24 hours without "chain failure"

In response to the pain point of "long-term continuous experiments" in scientific research, we have innovatively developed an internal air-cooled+external water-cooled dual cooling architecture: the internal circulation air-cooled rapid cooling electrode (≤ 40 ℃), and the external circulation water-cooled electrode takes away 90% of the discharge heat energy (water temperature ≤ 30 ℃), suppressing ozone thermal decomposition from the root. After 72 hours of continuous operation, the fluctuation of ozone concentration was less than ± 3%, which completely solved the problem of experimental interruption caused by the "mid process concentration attenuation" of traditional equipment, and seamlessly promoted the long-term research of water quality dynamics and sediment oxidation.

3. Intelligent closed-loop control: Experimental efficiency increased by 20%

Equipped with AI-PID intelligent control system, real-time collection of concentration (accuracy ± 1%), temperature, and pressure data, automatic adjustment of power parameters and gas flow rate - when the concentration is below the set value, the system responds within 0.1 seconds, accurately matching experimental requirements; Built in FFT spectrum analysis function, early warning of dielectric aging, to avoid sudden failures affecting experimental progress. More support for Modbus/RS485 protocol, seamless linkage with GC-MS, mass spectrometer and other devices, achieving full process automation of "ozone generation data collection report output", in compliance with GLP specifications.

Scenario based solutions: from basic research to cutting-edge innovation

Water quality and environmental research: making oxidation reactions more thorough

The integrated micro nano bubble generation device (bubble particle size 10-100nm) increases the solubility of ozone in water by three times and upgrades the gas-liquid mass transfer efficiency by leaps and bounds. A certain environmental laboratory conducted antibiotic degradation experiments using it, and the degradation rate constant of tetracycline increased by 2.3 times compared to conventional aeration. The reaction mechanism of hydroxyl radicals was successfully revealed, and the research results were published in Environmental Science&Technology.

Material surface modification: achieving 'controllable oxidation'

We provide customized concentration adjustment (1-200mg/L) and flow control (16-160L/h stepless adjustment) for graphene functionalization, semiconductor wafer cleaning, and other needs. In the research and development of a semiconductor enterprise, replacing traditional chemical cleaning processes, the wafer particle contamination rate has been reduced to less than 0.01 particles/cm ², while avoiding chemical reagent residue and promoting green research and development.

Biosafety and Extreme Simulation: More Reliable with "Hardship" Tolerance

The overcurrent components are made of 316L stainless steel and PTFE coating, which can withstand strong acids and alkalis with pH 2-12 and salt concentrations of 0-35 ‰ in marine environments, making it easy to construct a three-phase reaction system of "ozone sediment water". In the virus aerosol inactivation experiment of P3 laboratory, the inactivation rate reached>99.9% at a concentration of 0.1-10ppm set according to the program, laying a solid defense line for biosafety research.

Zhongjing Guarantee: A 'Solid Partner' on the Road of Scientific Research

✅  Compliance certification: The entire series has passed CCEP China Environmental Protection Product Certification and ISO 9001 Quality Management System Certification, complying with the "Disinfection Technical Specification" and adapting to domestic and international scientific research compliance requirements;

✅  Intelligent operation and maintenance: Built in IoT module, engineers can monitor device status in real-time through a mobile app, with a fault response time of less than 2 hours. Free annual calibration and technical training are provided;

✅  Customized services: For special experimental needs such as multi gas source combination and high-temperature reaction adaptation, we provide full cycle customization from solution design to equipment implementation. We have provided exclusive solutions for 200+research institutions such as the Chinese Academy of Sciences and Tongji University.

Take action now, unlock new efficiency in scientific research

Whether it is the "deep oxidation" of water quality research, the "precise control" of material modification, or the "strict protection" of biological safety - Shanghai Zhongjing Experimental Ozone Generator always takes "technology adaptation for scientific research, innovation driven breakthrough" as its original intention, making every oxidation reaction precise and controllable, and every set of experimental data reliable and powerful.