IntelliStack CO2 Incubator Shakers by Thermo Fisher Scientific
Shakers,Incubators
Product Group:
1729-PP-03
1729-PP-03
IntelliStack CO2 Incubator Shakers by Thermo Fisher Scientific
Manufactured By: Thermo Fisher
Warranty: Two-Year Manufacturer Warranty
Large-capacity IntelliStack CO2 Incubator Shakers provide an integrated solution that incubates, humidifies and shakes samples with precision in a stackable unit available in up swing or down-swing door configurations
Choice of 25 mm or 50 mm orbits
Flexible stacking design: Stack up to three CO2 and non-CO2 units with 25 mm or 50 mm orbits
Features intuitive touchscreen display, low energy consumption, accommodates new Nalgene 5L Shake Flasks, enhanced sample security, real-time monitoring, easy-to-use design and quiet operation ideal when multiple units are stacked and running simultaneously
Models include: required stacking bolts, CO2 Gas inlet, CO2 Gas Control on display
Laboratory shakers rotate in an orbital, or reciprocating, motion to ensure thorough mixing of liquid samples and reagents.
What Are Lab Shakers Used For?
Lab shakers, or mixers, are commonly used in a wide variety of applications, including DNA extraction and isolation, gel staining, Western and Southern Blots, reagent preparation, sample agitation, and cell culture.
Lab Shaker Design & Features
Typical lab shakers include a platform designed to oscillate on a horizontal plane, clamps to hold flasks, beakers, tube racks, basins, gel trays and microplates, and a digital or analog controller. The dimensions of the platform and the quantity of compatible clamps determine the number of samples processed during a single run.
Thermo Fisher Lab Shaker Systems
Thermo Fisher’s MaxQ 6000 high-volume shakers include platforms that stack vertically to allow more samples to be mixed during a single operation. Simple analog controllers include a timer, on/off switch, and speed dial. In contrast, sophisticated digital controllers include password protection, user-programmable protocols, excess speed alarms, and e-signature systems for 21 CFR Part 11 compliance.
Lab Shaker Movement and Motion
Lab shakers and mixers are designed to oscillate in a variety of different motions: orbital, reciprocating, rocking, and vortex. Conventional orbital shakers move in a 2-dimensional motion, along the horizontal plane, across the x- and z-axes. This gentle mixing motion is ideal for applications such as bacterial cell culture, reagent prep, and dissolution studies.
What is a Reciprocating Shaker?
Reciprocating shakers move in a 3-dimensions motion, both horizontally and vertically, along the x-, y- and z-axes. The reciprocating motion is optimal for thorough, homogenous mixing of low-volume samples, like PCR and DNA sequencing.
What is a Lab Rocker?
Lab rockers, or tube rollers, maintain an orbital motion, but the platform is tilted to a fixed, or adjustable, angle. Given the angle of the platform, rockers must maintain low mixing speeds (under 50 rpm) to prevent the spillage of samples or reagents. Common applications for rockers, or tube rollers, include gel staining, Western Blotting, tissue culture, and reagent thawing in a water bath.
What is a Vortex Mixer?
Vortex mixers maintain a circular, rather than an orbital motion, for mixing single samples. Unlike orbital shakers or rockers, vortex mixers include a pad, rather than a platform. As the sample tube contacts the pad, the circular motion is transferred to the liquid, forming a visible vortex. Vortex mixers are optimal for applications such as cell suspension and sample thawing.
What are Lab Shakers and Mixers Used For?
Lab shakers and mixers are commonly used in many industries, including genomics, proteomics, medical microbiology, clinical diagnostics, molecular biology, mammalian and bacterial cell culture, blood banking, and medical outpatient clinics.
Traditional orbital shakers, like Thermo Fisher’s Solaris line, feature open platforms, commonly made of stainless steel, for easy access to load and unload samples and reagents. Ideal for busy, high-throughput labs or shared-use spaces, open-air shakers allow researchers to quickly mix samples without the hassle of opening and closing sample covers. However, open-air shakers leave samples and reagents exposed to possible cross-contamination, so samples must be mixed in screw-cap or pop-top tubes and flasks must be covered in Paraffin. As open-air shakers don’t include a sample cover, they are compatible with taller vessels, such as graduated cylinders, reagent troughs, and 4L flasks.
A2 - Incubated Lab Shakers
Specific shaker models, such as Thermo Fisher’s MaxQ 4000 and MaxQ 4450, include integrated incubators for mammalian and bacterial cell culture sampling.
Incubated shakers commonly include an orbital-shaking platform enclosed in an insulated cover, driven by an onboard controller capable of adjusting temperature and mixing speed.
Incubated shakers, such as Benchmark Scientific’s Incu-Shaker, feature a heavy cover that mitigates cross-contamination more effectively than open-air shakers. However, the sample platform is more restricted, making incubated shakers incompatible with taller sample vessels.
A3 - Refrigerated Lab Shakers
Refrigerated shakers, such as Thermo’s MaxQ 6000, include an enclosed platform and on-board controller capable of adjusting the temperature in the sampling area from 37°C down to -15°C. Ideal for temperature-sensitive samples and reagents, refrigerated shakers include over-temperature alarms and safety kill switches connected to the sample cover. As high shaking speeds impact the temperature set point maintained within the sampling area, refrigerated or incubated shakers commonly don’t exceed speeds of 500 rpm.
A4 - High Capacity Shakers
High-capacity shakers, such as Benchmark Scientific’s Orbi-Shaker XL and Thermo Fisher’s MaxQ 3000, feature larger platforms (up to 36" wide x 24" deep) to house larger quantities of samples or larger sample vessels. Ideal for high-throughput labs, high-capacity shakers accommodate up to 25 x 250 ml flasks or 8 microplates during a single run. As high-capacity shakers feature a heavy, bulky platform, they cannot maintain shaking speeds above 500 rpm. Common applications for large-capacity models include sequencing labs, high-throughput screening (HTS), and core facilities.
A5 - Compact Shakers
Compact shakers, such as ITL Virginia Co-Mix and Benchmark Scientific’s Orbi-Shaker Jr., feature a small footprint, with a platform size under 10" wide x 8" deep, for crowded labs with precious open benchtop space. Ideal for teaching labs or academic research, economical compact shakers rarely include temperature control, access security, or high-speed mixing options. However, compact shakers are often extremely durable and low-maintenance, boasting a longer lifespan than their sophisticated counterparts.
A6 - Microplate Shakers for PCR | DNA
Benchmark Scientific’s Orbi-Shaker MP microplate shakers include platforms designed to accommodate deep-well, skirted, and semi-skirted PCR plates (in 96-well and 384-well formats). Microplates often contain smaller sample volumes (under 10 ul), so microplate shakers are designed to maintain high shaking speeds (up to 1,500 rpm) to ensure sample homogeneity.
Featuring smaller footprints than larger orbital shakers, microplate-compatible models are designed to operate in cold rooms, incubators, test chambers or walk-in refrigerators.
What is a Microplate Shaker Used For?
Common applications for microplate shakers include DNA sequencing labs, forensics, whole-genome sequencing centers, environmental research, genetic testing labs, and clinical diagnostics.
Laboratory shakers are designed to maintain fixed or adjustable shaking speeds to accommodate different sample types and protocols. Rockers, rotators, and blotters, like Benchmark Scientific’s Orbi-Blotter, maintain low shaking speeds (down to 70 rpm) for gel staining, Western and Southern Blotting, and reagent thawing.
Conventional shakers, like Thermo Fisher’s MaxQ 4000 or MaxQ 4450, maintain shaking speeds between 300 rpm and 500 rpm for applications such as bacterial cell culture, PCR prep, and chemical synthesis.
High-speed shakers maintain shaking speeds between 1,000 rpm and 3,000 rpm for ELISA sample prep, bacterial protocols, and enzymatic reactions.
Benchmark Scientific’s Orbi-Blotter lab shakers feature analog controllers with on/off switches, speed control dials, and touch-start/manual-start toggles.
C2 - Lab Shaker and Mixer Voltage
Digital lab shakers and mixers, like Benchmark Scientific’s Incu-Shaker, feature digital controllers with speed adjustment, temperature control, run timers, password protections, data exports, and stored user-defined programs.
120-volt connections are suitable for standard laboratory power outlets in the United States, Canada, Mexico, and South America. 240-volt connections, common in Mainland Europe and throughout Asia, require less current (amperage) and smaller conductors than equipment designed to operate at 120-volt.
Thermo Fisher’s Solaris models are designed to operate in incubation conditions (37°C) for bacterial cell culture and human tissue culture studies.
E2 - Refrigerator-Safe
Thermo Fisher’s MaxQ Series, designed to operate at 4°C in cold rooms or walk-in refrigerators, are ideal for processing temperature-sensitive samples, certain shakers, like, are.
E3 - Stackable Shakers
High-volume shakers, like Thermo Fisher’s MaxQ 6000, include platforms that stack vertically to allow a larger quantity of samples to be mixed during a single operation.
E4 - Remote-Controlled Lab Mixers & Shakers
Certain models, like Thermo Fisher’s MaxQ 8000, include optional remote control and remote alarm systems with BMS integration, secure user access, password protection, and real-time monitoring of sample conditions
E5 - Integrated Vortex Mixers
ITL Virginia Co-Mix Shakers include an integrated vortex mixer installed adjacent to the shaking platform, allowing for simultaneous vortex mixing and orbital shaking of samples and reagents.
Where Can I Buy Laboratory Rockers and Mixers Online? (back to chart)
Laboratory-Equipment.com is a specialty division of Terra Universal. For nearly 40 years, Terra Universal has served semiconductor, aerospace, life science, pharmaceutical, biotechnology, and medical device markets. Customers appreciate a worldwide network of reps, factory-direct support, and ready-to-ship items available from Terra's manufacturing and warehouse facilities in Fullerton, California.
Shop online to compare pricing, features, and selection for a wide variety of lab mixing equipment including rockers, shakers, and stirrers. Browse a curated list of products for applications including general laboratory, research, PCR, DNA/RNA techniques, ELISA, protein analysis, and cell culture.
Large-capacity IntelliStack CO2 Incubator Shakers provide an integrated solution that incubates, humidifies and shakes samples with precision in a stackable unit available in up swing or down-swing door configurations
Choice of 25 mm or 50 mm orbits
Flexible stacking design: Stack up to three CO2 and non-CO2 units with 25 mm or 50 mm orbits
• Features intuitive touchscreen display, low energy consumption, accommodates new Nalgene 5L Shake Flasks, enhanced sample security, real-time monitoring, easy-to-use design and quiet operation ideal when multiple units are stacked and running simultaneously
• Models include: required stacking bolts, CO2 Gas inlet, CO2 Gas Control on display
Applications: cell culture, microbial growth, mammalian, bacterial, yeast culture, microbiology, cell and molecular biology, and QA/QC assays
Large capacity: 35" x 22" platform, 13.7" interior height fits up to 6 x 5-liter shaker flasks or 22 x 1-liter shaker flasks
Intuitive 10" full color touchscreen display and interface with easy-to-access key settings and parameters that can be operated independently; display with non-reflective coating
Modes: manual, (continuous or times), or program
Industries: BioPharma, Biotech, Industrial, Academia
Enhanced sample security: user access controls, alarms and alerts, internal controls/protections, ensure settings are not changed without approval, integrated drainage and slide-out platform (easy loading and unloading; locking handle stabilizes unit during operation
Program: 1 program, 12 segments; customizable in PDF or CSV formats
Data logging: > 912-day storage - data reported down to minute
Additional features: Low-maintenance motor, sturdy design eliminates need to verify shelf weights, tubing connectors for connecting drains for each shaker, Bidirectional UV, 254 nm, rounded corners, compatible with existing Thermo Scientific CO2 Resistant Shaker Clamps
Stacking tips:
Up-swing door recommended for top unit
Down swing door recommended for middle and bottom units
Shaking features:
Orbit (mm): 25 mm (at 30 to 350 ±1 rpm); 50 (at 30 to 300 ±1 rpm)
Box to bench and setup video: Unboxing the Thermo Scientific IntelliStack CO2 Incubator Shaker
How to operate: Thermo Scientific IntelliStack Incubator Shaker Series touch program interface
Video Introduction of Thermo Scientific IntelliStack Shakers and CO2 Incubator Shakers
Step-by-step unboxing and set-up for IntelliStack CO2 Incubator Shakers by Thermo Fisher ScientificBox to bench and setup video: Unboxing the Thermo Scientific IntelliStack CO2 Incubator ShakerUnboxing video of IntelliStack CO2 Incubator Shaker by Thermo Fisher Scientific shows unpacking, inspecting, moving, positioning and operating conditions
Video highlights navigation of user-friendly large 10" touchscreen display of IntelliStack Incubator Shaker Series by Thermo Fisher ScientificHow to operate: Thermo Scientific IntelliStack Incubator Shaker Series touch program interfaceDetailed instructions on how to operate and navigate the large 10" touchscreen display of IntelliStack Incubator Shaker Series by Thermo Fisher Scientific
Video shows product overview of IntelliStack Shakers and CO2 Incubator Shakers by Thermo ScientificVideo Introduction of Thermo Scientific IntelliStack Shakers and CO2 Incubator ShakersVideo highlights the user-friendly design, capacity, and general product features and benefits of IntelliStack Shakers and CO2 Incubator Shakers by Thermo Fisher Scientific
Features of HERAcell 150i and 240i CO2 Direct Heat Incubators with Copper and Stainless Steel Chambers
Designed to provide optimal growth conditions to enhance cell growth, the HERAcell 150i and 240i CO2 Incubators have a range of features for accurate, uniform and reliable culturing conditions. Units are available with thermal conductivity or infrared sensors, located inside the chamber, for precise environmental measurements. The fan-assisted convection provides samples with a uniform temperature, CO2 and humidity within the incubator. Because constant humidity is paramount for cell protection and optimal growth, the patented floor heating system directly transfers heat to the humidity reservoir for optimal humidity and allows for rapid recovery of moisture levels after doors are opened. The water level sensor alarms when later levels are low and the iCAN touchscreen clearly displays performance trends of your culturing process and monitors the progress of the ContraCon decontamination routine. Designed with a pan-less system to reduce handling, recovery rates are up to five times faster than standard tray humidified incubators.
The ContraCon 90°C moist heat decontamination cycle eliminates variability in disinfection. It eliminates disassembly of sensors, hardware and other components. This feature is effective against:
Bacillus subtilis
Bacillus stearothermophilus (USP 23)
Enterococcus faecalis
Escherichia coli
Pseudomonas aeruginosa
Staphylococcus epidermidis
Corynebacterium xerosis
Aspergillums niger
These easy-to-clean incubators have rounded corners for quicker and more effective cleaning and disinfection. Models are available in stainless steel or copper interior chambers.
Benefits of Copper Inner Chamber in HERAcell 150i and 240i CO2 Incubators
Copper has a natural antimicrobial feature that delivers non-stop bactericidal and fungicidal protection to samples on contact. As the choice of many cell culture professionals, copper maximizes productivity and minimizes contamination especially in shared-use environments.
The tarnishing effects on copper increase with age thus increasing the antimicrobial efficiency. Because copper ions are not airborne, they do not effect or interfere with the integrity of cultures.
Since copper is easy to clean, maintenance is minimal and eliminates the need to use toxic chemical cleaners or UV light.
Model
HERAcell 1501
HERAcell 240i
Exterior Dimensions W x D x H
25.1 x 30.8 x 24.1 in. (638 x 782 x 612 mm)
30.7 x 32.8 x 36.8 in. (780 x 833 x 935 mm)
Interior Dimensions W x D x H
18.5 x 20.9 x 23.9 in. (470 x 531 x 607 mm)
23.9 x 23.0 x 26.4 in. (607 x 584 x 671)
Internal Volume
150L (5.3 cu. ft.)
240 (8.4 cu. ft.)
Weight
154 lbs. (70 kg)
178 lbs. (81 kg)
Shelves Dimensions W x D
16.7 x 18.3 in. (423 x 465 mm)
22.0 x 19.7 (560 x 500 mm)
No. of Shelves Standard/Maximum
3 Standard 10 Maximum
3 Standard 12 Maximum
Max. Load per Shelf
22 lbs. (10 kg)
Total Load per Shelf
66 lbs. (30 kg)
Shelves Half Width W x D
—
10.2 x 19.7 in. (260 x 500 mm)
No. of Shelves Standard/Maximum
—
6 Standard 16 Maximum
Max. Load per Shelf
—
11 lbs. (5 kg)
Total Load per Shelf
—
66 lbs. (11 kg)
Interior Chamber
Solid Copper/Stainless Steel
Shelves and Fan Impeller
Solid Copper/Stainless Steel
ContraCon decontamination routine
verified by accredited laboratories
Decontamination phase, on all surfaces °C/hrs.
90/9
Period (ambient temperature 20°C)
25 hours
Efficiency spectrum
bacteria, fungi, spores (USP 23), mycoplasma
Temperature
Air Jacket Temperature Control
Temperature Control Range °C
TA* +3 … 55
Temperature deviation, time**/spatial**
± 0.1/± 0.5 K
Ambient temperature range °C
+18 … 33
Constant humidity*** %rH
95 ± 3
Fill amount/water quality
Max. 3 distilled/autoclaved and demineralized
Max 4.5 distilled/autoclaved and demineralized
Measure and control range Vol. – %
0 … 20
Control accuracy Vol. – %
± 0.1
Inlet pressure bar
0.8 … max. 1
Gas purity %
99.5, medical quality min.
Measure and control range Vol. – %
1..21/5..90
Control accuracy Vol. – %
±0.2
Inlet pressure bar
0.8…max. 1
Gas purity %
99.5; medical quality min.
Rated voltage V
1/N/PE AC; 230 (120)
Rated output kW
0.58 (0.62)
0.64 (0.65)
Rated frequency Hz
50/60
Heat emission to environment at 37°C kWh/h
0.06
0.07
With ContraCon, kWh/h
0.11
0.25
*Ambient Temperature **Determined according to DIN 12880 for the standard configuration. Refer to calibration instructions for details. ***Relative humidity inside incubator may increase during incubation of open culture vessels
Stackable
Flexible space-saving design enables stacking of up to three units in various door configurations; stacking bolts included with each unit
Slide-Out Platform
Easily load and unload consumables with the slide-out platform design, and locking handle ensures that platform stays in place during operation
Easy-to Operate
Intuitive large 10" color touchscreen with independently operated parameters activated by the press of a single button, performance chart, and anti-reflective coating enables easy viewing in brightly lit labs
On a tight schedule?Choose FasTrak 24/7 Priority Service to help meet your critical schedule for Terra-manufactured products, either before or after your order is placed.*
FasTrak 24/7 provides a 24/7 commitment to meet the shipping date YOU specify, regardless of quoted lead times.
FasTrak 24/7 assigns a dedicated production team plus a dedicated senior expeditor working three shifts to meet your delivery specification.
FasTrak 24/7 guarantees* to meet the agreed-to specified ship date.
Call for pricing. FasTrak service fees cover costs of additional services only, without additional profit.
* Terra's FasTrak services limited guarantee: to ship on the ESD or date specified OR to refund up to 100% of FasTrak charges. This guarantee covers no direct, special, consequential or other damages and is strictly limited to up to 100% of the amount paid for FasTrak service. When a specified ship date is missed due to factors outside Terra's control (vendor performance, deliveries by shipping companies, etc.) and random factors such as accidents, the credit of up to 100% of the FasTrak 24/7 may not apply. FasTrak service requested after order placement will be quoted and accepted based on available time remaining before required ship date.
Features of HERAcell 150i and 240i CO2 Direct Heat Incubators with Copper and Stainless Steel Chambers
Designed to provide optimal growth conditions to enhance cell growth, the HERAcell 150i and 240i CO2 Incubators have a range of features for accurate, uniform and reliable culturing conditions. Units are available with thermal conductivity or infrared sensors, located inside the chamber, for precise environmental measurements. The fan-assisted convection provides samples with a uniform temperature, CO2 and humidity within the incubator. Because constant humidity is paramount for cell protection and optimal growth, the patented floor heating system directly transfers heat to the humidity reservoir for optimal humidity and allows for rapid recovery of moisture levels after doors are opened. The water level sensor alarms when later levels are low and the iCAN touchscreen clearly displays performance trends of your culturing process and monitors the progress of the ContraCon decontamination routine. Designed with a pan-less system to reduce handling, recovery rates are up to five times faster than standard tray humidified incubators.
The ContraCon 90°C moist heat decontamination cycle eliminates variability in disinfection. It eliminates disassembly of sensors, hardware and other components. This feature is effective against:
Bacillus subtilis
Bacillus stearothermophilus (USP 23)
Enterococcus faecalis
Escherichia coli
Pseudomonas aeruginosa
Staphylococcus epidermidis
Corynebacterium xerosis
Aspergillums niger
These easy-to-clean incubators have rounded corners for quicker and more effective cleaning and disinfection. Models are available in stainless steel or copper interior chambers.
Benefits of Copper Inner Chamber in HERAcell 150i and 240i CO2 Incubators
Copper has a natural antimicrobial feature that delivers non-stop bactericidal and fungicidal protection to samples on contact. As the choice of many cell culture professionals, copper maximizes productivity and minimizes contamination especially in shared-use environments.
The tarnishing effects on copper increase with age thus increasing the antimicrobial efficiency. Because copper ions are not airborne, they do not effect or interfere with the integrity of cultures.
Since copper is easy to clean, maintenance is minimal and eliminates the need to use toxic chemical cleaners or UV light.
Model
HERAcell 1501
HERAcell 240i
Exterior Dimensions W x D x H
25.1 x 30.8 x 24.1 in. (638 x 782 x 612 mm)
30.7 x 32.8 x 36.8 in. (780 x 833 x 935 mm)
Interior Dimensions W x D x H
18.5 x 20.9 x 23.9 in. (470 x 531 x 607 mm)
23.9 x 23.0 x 26.4 in. (607 x 584 x 671)
Internal Volume
150L (5.3 cu. ft.)
240 (8.4 cu. ft.)
Weight
154 lbs. (70 kg)
178 lbs. (81 kg)
Shelves Dimensions W x D
16.7 x 18.3 in. (423 x 465 mm)
22.0 x 19.7 (560 x 500 mm)
No. of Shelves Standard/Maximum
3 Standard 10 Maximum
3 Standard 12 Maximum
Max. Load per Shelf
22 lbs. (10 kg)
Total Load per Shelf
66 lbs. (30 kg)
Shelves Half Width W x D
—
10.2 x 19.7 in. (260 x 500 mm)
No. of Shelves Standard/Maximum
—
6 Standard 16 Maximum
Max. Load per Shelf
—
11 lbs. (5 kg)
Total Load per Shelf
—
66 lbs. (11 kg)
Interior Chamber
Solid Copper/Stainless Steel
Shelves and Fan Impeller
Solid Copper/Stainless Steel
ContraCon decontamination routine
verified by accredited laboratories
Decontamination phase, on all surfaces °C/hrs.
90/9
Period (ambient temperature 20°C)
25 hours
Efficiency spectrum
bacteria, fungi, spores (USP 23), mycoplasma
Temperature
Air Jacket Temperature Control
Temperature Control Range °C
TA* +3 … 55
Temperature deviation, time**/spatial**
± 0.1/± 0.5 K
Ambient temperature range °C
+18 … 33
Constant humidity*** %rH
95 ± 3
Fill amount/water quality
Max. 3 distilled/autoclaved and demineralized
Max 4.5 distilled/autoclaved and demineralized
Measure and control range Vol. – %
0 … 20
Control accuracy Vol. – %
± 0.1
Inlet pressure bar
0.8 … max. 1
Gas purity %
99.5, medical quality min.
Measure and control range Vol. – %
1..21/5..90
Control accuracy Vol. – %
±0.2
Inlet pressure bar
0.8…max. 1
Gas purity %
99.5; medical quality min.
Rated voltage V
1/N/PE AC; 230 (120)
Rated output kW
0.58 (0.62)
0.64 (0.65)
Rated frequency Hz
50/60
Heat emission to environment at 37°C kWh/h
0.06
0.07
With ContraCon, kWh/h
0.11
0.25
*Ambient Temperature **Determined according to DIN 12880 for the standard configuration. Refer to calibration instructions for details. ***Relative humidity inside incubator may increase during incubation of open culture vessels