Biotechnology Solutions CS-1000 Flow Cytometry Cell Counting / Sorting Unit
- Make Biotechnology Solutions
- Hertz Does Not Apply
- Model CS-1000
- Serial 1000BM01
- Weight 620.0 Lb
- Voltage Does Not Apply
- Warranty AS-IS
- Dimensions 73.0in x 45.0in x 72.0in
- Shipping Type Freight
- Item Condition VG (Very Good)
- Manufacturing Date 2009-01-01
Product Information
The Biotechnology Solutions CS-1000 is a device for separating particles from a bulk liquid, such as viable hybridoma cells from antibody-containing liquid medium. It comprises a plurality of settlement plates, or other surfaces, being inclined to the vertical, and a pump or other means for causing liquid containing the particles to flow upwardly over the surfaces. The CS-1000 has been in use since 2009 and is classified as 'Very Good' condition. It is used for separating, counting, and sorting cells in laboratory and pharmaceutical settings.
Key Features- Separates particles from bulk liquid
- Used for viable hybridoma cells separation
- Functions with settlement plates and a pump
- Make: Biotechnology Solutions
- Model: CS-1000
- Subcategory: Flow Cytometry
- Condition: Used
- Manufacturing Date: 2009
- Serial Number: 1000BM01
- Country of Origin: Taiwan
- Weight: 620 kg
- Dimensions: { 'length': 73, 'width': 45, 'height': 72 } cm
- Warranty: AS-IS
- Voltage: N/A
- Has all Cables, Power, and Data: No
- Includes Computer with Software: No
- Current Warehouse Location: REUZEit West Coast US - R
- Working Condition: Yes
Metric: 620 kg
Imperial: 1366.86 lb
Metric: 73 cm x 45 cm x 72 cm
Imperial: 28.74 in x 17.72 in x 28.35 in
902780
Harmonized Code Details902780 - Other instruments and apparatus using optical radiations (UV, visible, IR)
Testimonials
“REUZEit has been a great partner for our used equipment needs and always provide timely updates of new arrivals of consigned equipment.”
“Great company to work with. Tammy completed our first international equipment shipment with ease.”
“Fast response, open to adjusting schedule as needed, and great customer interaction.”