Products used to quantify the number of small particles and/or cells within a sample. Ideal for the analysis of blood samples; includes counting chambers, disposable and reusable hemocytometers, and differential cell counters.
Facilitates quick and easy determination of cell concentration in liquid samples. Hirschmann Instruments™ Counting Chambers are available in a variety of depths to fit a range of systems.
Fisher Scientific Edge Order before 2 pm dispatch today Order after 2 pm dispatch tomorrow Learn More
For determining the number of particles per volume unit of a liquid. Rogo Sampaic™ Malassez Counting Cells have a simple or double grid with a depth of 0.2mm.
Fisher Scientific Edge Order before 2 pm dispatch today Order after 2 pm dispatch tomorrow Learn More
The Scepter™ 3.0 sensor is engineered with a micro-fabricated, cell-sensing zone enabling discrimination by cell size and volume- down to sub-micron and sub-pL resolution. Coupled with precision liquid handling channels and electronics, the Scepter™ sensor accurately provides cell population statistics.
Disposable counting chambers are composed of two 10 μL chambers. Designed to optimize cell counting throughput by enchaining speed and data accuracy in your day to day mammalian cell culture experiments.
The Corning Cell Counter is fast, accurate, low cost, and fits in the palm of your hand. With cloud-based cell counting, you always have the latest technology at your fingertips.
The Scepter™ 3.0 sensor is engineered with a micro-fabricated, cell-sensing zone enabling discrimination by cell size and volume- down to sub-micron and sub-pL resolution. Coupled with precision liquid handling channels and electronics, the Scepter™ sensor accurately provides cell population statistics.
Designed for use with the Scepter 2.0 Automated Handheld Cell Counter (cat. no. PHCC20040). Scepter 2.0 Cytometer Sensors ensure accurate, reproducible counts and eliminate pipetting errors and uneven sample loading. Available in two apertures to count cells between 4 and 25 μm.