3D Bioprinter with temperature control system, air dispenser controller and air compressor for plastic materials.
Maintains uniform culture conditions throughout the space by means of a direct air jacket heating system, which allows the exact simulation of physiological conditions to be achieved. Homogeneous temperature distribution on all walls of the useful enclosure, thus avoiding possible condensation. Fast and highly efficient distribution of temperature, CO₂ and humidity is achieved by a stainless steel fan at the top of the incubator, ensuring uniformity for all samples regardless of their location in the incubator.
Water bath to regulate the temperature of the liquid from 5 ºC to 110 ºC.
Analytical and precision single-pan balance equipped with "State-of-the-Art", measuring accuracy, repeatability, sturdy ABS housing, with LCD display. Applications: counting, weighing, averaging. Net total. RS 232 bidirectional interface. External calibration, compact housing and its excellent operability from weighing metals to, counting parts or working with chemicals and liquids.
Reads and reproduces the total cell count and performs live/dead cell correlation in one step. Results in 30 seconds.
They are suitable for the handling of biologically pathogenic samples or products (up to micro-organisms of third degree of risk) ensuring the protection of sterile air in the working area, a high protection of the operator and also of the environment.
Equipment that determines and quantifies the fluorescence of fluorescent probes attached to different parts of both eukaryotic and prokaryotic cells, organelles, proteins. The emitted fluorescence is collected on different filters limited to a certain wavelength. Fluorescence quantification is associated with the cell parameter being measured, generating quantitative results such as fluorescence intensity, percentage of cell populations, cell count/ML.
Equipment that determines and quantifies the fluorescence of fluorescent probes attached to different parts of both eukaryotic and prokaryotic cells, organelles, proteins. The emitted fluorescence is collected on different filters limited to a certain wavelength. Fluorescence quantification is associated with the cell parameter being measured, generating quantitative results such as fluorescence intensity, percentage of cell populations, cell count/ML.
They are suitable for the handling of biologically pathogenic samples or products (up to micro-organisms of third degree of risk) ensuring the protection of sterile air in the working area, a high protection of the operator and also of the environment.
An imaging flow cytometer is a device that combines flow cytometry and microscopy to capture detailed images of cells, allowing a more complete analysis of their morphology and structure.
Maintains uniform culture conditions throughout the entire space by means of a direct air jacket heating system, which enables the exact simulation of physiological conditions to be achieved. Homogeneous temperature distribution on all walls of the useful space, thus avoiding possible condensation. Fast and highly efficient distribution of temperature, CO₂ and humidity is achieved by a stainless steel fan at the top of the incubator, ensuring uniformity for all samples regardless of their location in the incubator.
Maintains uniform culture conditions throughout the space. Improves temperature stability thanks to three independently controlled heaters and Panasonic's unique, patented air jacket construction. Patented SafeCell™ UV system, which acts on the internal air ducts to destroy contaminants in the air and humidity tray. Exclusive copper-enriched stainless steel InCu saFe® interior surfaces ensure consistent protection against germs.
Maintains uniform culture conditions throughout the space. Improves temperature stability thanks to three independently controlled heaters and Panasonic's unique, patented air jacket construction. Patented SafeCell™ UV system, which acts on the internal air ducts to destroy contaminants in the air and humidity tray. Exclusive copper-enriched stainless steel InCu saFe® interior surfaces ensure consistent protection against germs.
Maintains uniform culture conditions throughout the space. Automatic autozeroing system for accurate and permanent control. CO₂ inlet with biological filter.
Inverted microscope with phase contrast, 4 lenses of 5X, 10X, 20X and 40X. With camera and a monitor attached.
OptiMair vertical laminar flow cabinets are useful for mycology, food microbiology, plant and mammalian cell culture, clinical pharmacy and hospital protocols, clean rooms, pharmaceutical industry where product protection is required.
These are full-spectrum UV-Vis spectrophotometers for quantifying and assessing the purity of DNA, RNA, protein and more.
The MACSxpress separator is a system designed for the manual separation of magnetic-labelled cells utilising the MACS® technology.
Cryogenic receptacle for storage of cell lines.
Refrigerated microcentrifuge for 1.8mL tubes.
Centrifuge with rotors for cell pelleting.
Centrifuge with rotors for collecting cell pellets.
Centrifuge with rotors for cell pelleting.
Equipment that determines and quantifies the fluorescence of fluorescent probes attached to different parts of both eukaryotic and prokaryotic cells, organelles, proteins. The emitted fluorescence is collected on different filters limited to a certain wavelength. Fluorescence quantification is associated with the cell parameter being measured, generating quantitative results such as fluorescence intensity, percentage of cell populations, cell count/ML.
The equipment has a cell separation system allowing the physical separation of a given population with different levels of purity. It allows separation under sterile conditions.
Filter-free multi-wavelength measurement for protein quantification, DNA quantification, ELISA, molecular biology.
Full spectrum UV-Vis spectrophotometers for quantifying and assessing the purity of DNA, RNA, protein and more.
Polymerase Chain Reaction (PCR) is a is a technique for amplifying nucleic acids in vitro, emulating the natural DNA replication process. PCR amplification is achieved using a thermal cycler by raising and lowering the temperature of the samples in a thermoblock in programmed step cycles.
Centrifuge for separation of samples requiring high centrifugation speeds.
The W8 Physical Cytometer is based on a ground-breaking flow-technology that measures the physical properties of spherical biological samples through a combination gravimetric and dimensional analysis. This novel approach provides an analysis of 3D cells, particularly spheroids and organoids, to measure mass density, weight, radius and their derivatives. This cytometer allows the operator to perform physical-based sorting of a target population under sterile conditions.