PHCbi CO2 incubators create environments for precise cell culture reproducibility.

Function icons | Logos

  • Zirconia_O2_Sensor
    Zirconia O2 Sensor
    The unique, solid state Zirconia O2 sensor delivers precise oxygen control.
  • H2O2_Decontamination
    H2O2 Decontamination
    The unique H2O2 decontamination system delivers fast and validatable decontamination.
  • Integrated_Tray_Catches
    Integrated Tray Catches
    Significantly minimize cleaning time and improves productivity.
  • IR_CO2_Sensor
    IR CO2 Sensor
    The IR CO2 Sensor offers accurate and reliable CO2 measurement.
  • Dual_IR_CO2_Sensor
    Dual IR CO2 Sensor
    The single beam, dual detector IR CO2 Sensor offers continuous calibration for excellent control, accuracy and stability.
  • SafeCell_UV_Lamp
    SafeCell UV Lamp
    The SafeCell UV lamp prevents contamination.
  • inCu-saFe_germicidal_interior
    inCu-saFe germicidal interior
    inCu-saFe germicidal interior prevents contamination.
  • Dual Heat Sterilisation
    Dual Heat Sterilisation
    Two independent heaters enable cell culturing to continue uninterrupted during sterilization.
“I require the most functional and versatile option.”

MCO 170 / 230 Litres │ New Multi-Functional Choice

MCO-170

H2O2 Decontamination Cycle (Recommended Optional Feature)

H202 Decontamination FAQ

Hydrogen Peroxide (H2O2) Vapor Decontamination is available as an option on these PHCbi Incubators. This system eliminates contamination, Developed with safe and effective cell culture decontamination processes using H2O2 vapor in conjunction with narrow-bandwidth ultraviolet light and copper enriched stainless steel to broaden CO2 incubator application highly regulated, environmentally sensitive cell cultures.

PHCbi’s CO2 incubators are optimized for high-value samples including hard-to-grow and contamination-sensitive media/reagents. Our incubators with touchscreen control panels deliver superior usability, rapid cleaning, and effortless maintenance while keeping the tradition of outstanding environmental stability and precise performance.
A unit employs an integrated tray structure without shelf supports thereby reducing the number of interior components by approximately 80%* and significantly saving cleaning time needed hen changing cells for incubation.

* Compared to the PHCbi’s conventional models.

SafeCell UV (Recommended Optional Feature)

Hepa Filter Vs. SafeCell UV FAQ

Alternatively, ultraviolet light can be built into CO2 incubators to decontaminate airflow. Typically, a UV light is located behind a plenum in the back of the incubator. The plenum will shield UV light from the cell cultures. Behind the plenum, the UV lamp decontaminates the moving air within the incubator, ridding any foreign contaminants it may contain in the air or on the humidity pan water surface.

where to buy
MCO-230
inCusaFe

Helping organizations to meet their research objectives, PHCbi has developed a patented technology, the InCusaFe®. A copper-enriched stainless steel alloy interior surface, plenum and shelving that eliminates contamination sources and mitigates the effect of airborne contaminates introduced through normal use.

“I need a compact model that is both flexible and a space-saver.”

MCO 50 Litres │ Compact Design

With a compact design, PHCbi’s CO2 incubators can help to save laboratory and research space while still ensuring optimal performance. The size allows for flexibility on counters and stackability when there is not enough floor space. If space is a concern, the compact MCO will be the optimal choice.

Depending on the installation environment and culture conditions, a stackable structure allows the main body to be stacked with a total of two or three units. When the incubators are stacked, the units can help in meeting GLP requirements by avoiding patient-to-patient cross-contamination in individualized patient-specific clinical incubation applications.

Check out product brochure here Read the product specifications here where to buy
MCO-50
“I am looking to store many samples.”

MCO 850 Litres │ Large Sample Capacity

MCO-850

PHCbi’s incubator allows for large capacity for high-volume specimens. The large capacity accommodates not only high-volume tissue culture applications but also cell harvesting needs. Built for high capacity and high throughput, this heavy-duty incubator can meet your experiment needs.

Check out product brochure here Read the product specifications here where to buy
“I need an incubator with precise oxygen control.”

MCO Multi-gas Tri-gas Incubators with O2 Control

MCO Multi-gas Tri-gas Incubators with Oxygen Control

With the same features as our CO2 incubators, our multi-gas incubators with O2 oxygen control, have been designed to meet your research needs. Ideal for various cell culture needs that require CO2 and sub-ambient or above-ambient oxygen control. As a result, our tri-gas incubators offer a consistent and stable microbiological cell culture environment.

PHCbi multi-gas incubators achieve more accurate results when culturing cells at physiological oxygen levels. The tri-gas incubator is ideal for cell culturing under hypoxic conditions thereby making it an optimal choice for mammalian tissue research. Studies regarding IVF (in vitro fertilization), have also shown that using CO2 incubators with oxygen control, or sometimes referred to as ivf incubators, have seen a dramatic improvement in embryo development and improved pregnancy rates.

MCO-Multigas-O2

MCO CO2 Multi-Gas Cell Culture Incubator Comparison Chart

Downloadable PDF for “Choosing your Cell Incubator”

CO2 Incubators / Multigas Incubators (Video Manuals)

Testimonials and Case Studies

Hubrecht Organoid Technology

Hubrecht Organoid Technology

HUB (Hubrecht Organoid Technology) in Utrecht, Netherlands.
The focus of organoid research was initially also on cultivating healthy cells, with the ultimate goal of regenerative medicine and cell therapy. In the meantime, the attention has switched to preclinical drug screening and diagnostics and, by extension, personalised medicine. ‘In any case, the road to cell therapy is very long, even longer (and also more uncertain) than the road to launching medicines on the market based on small molecules. However, we noticed that we could grow not only healthy cells but diseased cells as well, such as cancer cells. That opened the door to applications that can be developed a lot faster, for example disease modelling by growing organoids directly from diseased patient tissue. Furthermore, direct cloning of multiple individual cells from primary tumours enabled molecular and functional analysis of tumour heterogeneity. And we can also work with CRISP-mediated genome modification. Human organoids appear to be very receptive to this, which offers an enormous range of possibilities in modelling of malignant transformation and mutagenesis after defect DNA. repair.’

Download PDF for Hubrecht Organoid Technology

Contact us for a quote, additional offers, and product information

I want a quoteI want a quote