Properties :

MOPA is a clear, colorless to faintly colored liquid.It typically has an ammonia like odor. It has properties typical of primary amines and is miscible with water, ethanol, toluene, acetone, hexane and other standard solvents.

CAS No. 5332-73-0

Molecular Formula:C_{4H11NO      Molecular weight: 89.14}

Specification:

Usage:

MOPA can be used to synthesize disperse dye 60# Blue, antistatic agent and surfactant. It can be used as a corrosion inhibitor in steam boiler production, especially in condensation system, which can effectively inhibit the acid corrosion caused by carbon dioxide to condensate section. MOPA can also be used as cereal protectant, wetting agent, and as catalyst in the production of polyurethane foam and epoxy resin. It is also an advanced organic solvent, which is used for pharmaceutical intermediates, dye intermediates, petroleum anti-corrosion and cleaning agents.

Package:

MOPA is packed in 170kg/drum.

Safety Protection:

MOPA should be considered hazardous, having the potential to cause eye burns, skin irritation and allergic skin reactions.

Things to note about MOPA：

MOPA, which stands for Master Oscillator Power Amplifier, is a type of laser system commonly used in various applications such as material processing, medical treatments, and scientific research. Here are some important things to note about MOPA systems:

1. System Configuration: A MOPA laser system consists of a master oscillator that generates the initial laser signal and one or more power amplifiers that boost the power of the signal. This configuration allows for flexibility in controlling parameters like pulse duration, repetition rate, and output power.
2. Pulse Control: MOPA systems offer precise control over pulse characteristics such as duration, energy, and frequency. This flexibility is beneficial for applications that require specific pulse parameters for optimal performance.
3. High Power Output: MOPA systems can generate high power outputs compared to traditional laser systems. The power amplifiers in the system can significantly increase the output power while maintaining beam quality.
4. Versatility: MOPA systems are versatile and can be tailored to meet the requirements of different applications. They are used in industries such as micromachining, marking, cutting, and welding, as well as in medical applications like dermatology and ophthalmology.

5. Things to note about MOPA：

6. Maintenance: Regular maintenance is essential to ensure the proper functioning of MOPA systems. This includes cleaning optical components, aligning the laser beam path, checking for any signs of wear or damage, and replacing consumable parts as needed.
7. Safety: Laser safety protocols must be strictly followed when operating MOPA systems due to the potential hazards associated with high-power laser beams. This includes using appropriate laser safety eyewear, ensuring proper enclosure of the laser system, and implementing safety interlocks.
8. Cooling: MOPA systems may generate heat during operation, especially in the power amplifiers. Proper cooling systems should be in place to maintain stable operating temperatures and prevent overheating.
9. Training: Operators and users of it systems should receive adequate training on handling and operating the equipment safely. This includes understanding the operating parameters, emergency procedures, and maintenance requirements.
10. Applications: Consider the specific requirements of your application when selecting a MOPA system, such as output power, pulse duration, wavelength, and beam quality. Consult with experts or manufacturers to choose the right system for your needs.

By keeping these key points in mind, users can effectively utilize MOPA laser systems for their intended applications while ensuring safety, efficiency, and optimal performance.