Experience precision and cleanliness in your lab processes with our Laminar Flow Cabinet. Designed for controlled airflow, it creates an ultra-clean working environment, ideal for applications requiring particle-free conditions.
Experience precision and cleanliness in your lab processes with our Laminar Flow Cabinet. Designed for controlled airflow, it creates an ultra-clean working environment, ideal for applications requiring particle-free conditions. The Laminar Flow Cabinet Model MIC-11725 from Micron is a top rated clean air workstation for laboratories requiring particle-free conditions for cell culture, microbiology, and other sensitive applications. Available in multiple sizes, these cabinets provide ISO Class 5 (Class 100) clean air conditions within the work zone. The HEPA filter with 99.999% efficiency at 0.3 microns removes airborne contaminants, providing product protection. For laboratories seeking the best laminar flow cabinet for aseptic work, the MIC-11725 is an excellent choice.
One of the best features of the MIC-11725 laminar flow cabinet is its high-efficiency HEPA filtration and adjustable airflow. The HEPA filter provides 99.999% efficiency at 0.3 microns, creating ISO Class 5 (Class 100) clean conditions. The airflow velocity is adjustable from 0.3-0.5 m/s, allowing optimization for different applications. The work table is constructed from 304 stainless steel for durability and easy cleaning. The main body is cold-rolled steel with anti-bacteria powder coating for surface hygiene. The pre-filter is polyester fiber and washable for extended HEPA filter life. Its filtration efficiency, airflow adjustability, and construction quality make it a top rated laminar flow cabinet for aseptic applications.
Micron has designed the MIC-11725 series with the specific requirements of aseptic work in mind. The cabinet provides ISO Class 5 (Class 100) clean air for applications including cell culture, microbiology, and pharmaceutical compounding. The laminar airflow sweeps across the work surface, carrying contaminants away from the work zone. The stainless steel work surface is easy to clean and disinfect. The anti-bacteria powder coating on the exterior provides surface hygiene. The pre-filter captures larger particles, extending HEPA filter life. For any laboratory performing aseptic procedures, cell culture, or microbiology work requiring particle-free conditions, the MIC-11725 laminar flow cabinet delivers the clean air environment needed for successful outcomes. Its quality construction, HEPA filtration, and airflow design make it one of the best laminar flow cabinets available.
99.999% Efficient HEPA Filtration: Ultra-high efficiency HEPA filter provides ISO Class 5 (Class 100) clean air conditions.
Adjustable 0.3-0.5 m/s Airflow Velocity: Optimizable airflow speed for different applications and product protection requirements.
Multiple Size Options: Available in 630mm, 800mm, 940mm, and 1340mm widths for any laboratory space.
304 Stainless Steel Work Table: Durable, corrosion-resistant work surface is easy to clean and disinfect.
Anti-Bacteria Powder Coated Exterior: Cold-rolled steel body with anti-bacterial coating for surface hygiene.
Washable Polyester Pre-Filter: Captures larger particles to extend HEPA filter life; washable for reuse.
Horizontal or Vertical Airflow Options: Choice of airflow direction for application-specific requirements.
Optional UV Light for Decontamination: UV light option provides surface decontamination between uses.
Cell Culture Laboratories: Essential for aseptic handling of cell lines and tissue culture procedures.
Microbiology Laboratories: Ideal for preparing culture media and handling microbiological specimens.
Pharmaceutical Compounding: Perfect for sterile compounding of intravenous medications and ophthalmic preparations.
Plant Tissue Culture: Suitable for aseptic plant propagation and tissue culture procedures.
Electronics Assembly: Excellent for assembling sensitive electronic components requiring particle-free conditions.
Medical Device Manufacturing: Ideal for assembly and packaging of sterile medical devices.