Present invention relates to a device magnetically separating a sample. The device is a cuboid plate, which consists of one or two bottom sides and at least two lateral sides. The bottom side has wells on it to accommodate magnetic elements. The magnetic elements can adsorb the magnetic samples in the micro plate.
Microplate is a flat plate, which has lots of arranged equal size wells, and is suitable to contain the testing solution which is held in different wells in the plate to be analyzed. The microplate usually has several different sizes, 6, 12, 24, 48, 96, or 108 wells, can be used in various ways, like enzyme-linked immunosorbent assay (ELISA) or cell culture, etc. Therefore, microplate has been the standard tool or equipment for biological experiments.
However, the sample should be taken out from the microplate to do the separation procedure by high performance liquid chromatography (HPLC), and the sample will be under risks of contamination due to the complex procedure.
It has been well known that if user wants to separate the sample in the microplate, the sample should be taken out from the microplate to be separated by high performance liquid chromatography. The sample is under the risk of contamination due to the complex HPLC separation procedure. The present invention relates to a device magnetically separating a sample, which device has magnetic elements accommodated on the bottom of the plate. The magnetic sample can be adsorbed by the magnetic elements in the microplate, and the HPLC separation process can be waived to reduce the risk of sample contamination. An iron plate is used to fix the magnetic element to the microplate by magnetic adsorption force, preventing the magnetic elements pump out of the microplate due to the repulsion force among the magnetic elements.
Present invention provides a device magnetically separating a sample. The preferred material for the device is plastic. The device is a cuboid plate, which consists of one or two bottom sides and at least two lateral sides. The bottom side has wells on it to accommodate magnetic elements, and the magnetic element which is suitable to be accommodated into the wells comprising column shape, half-column shape, or half circular column shape magnetic elements. The magnetic element comprises permanent magnet or electromagnet, and the permanent magnet is selected from the group consisting of alnico, samarium cobalt, neodymium iron boron, or magnetic ceramic materials. The magnetic elements can adsorb the magnetic samples in the microplate.
Present invention provides a device magnetically separating a sample. The preferred material for the device is plastic. The device is a cuboid plate, which consists of one or two bottom sides and at least two lateral sides. The bottom side has wells on it to accommodate magnetic elements, and the magnetic element which is suitable to be accommodated into the wells comprising column shape, half-column shape, or half circular column shape magnetic elements. The magnetic element comprises permanent magnet or electromagnet, and the permanent magnet is selected from the group consisting of alnico, samarium cobalt, neodymium iron boron, or magnetic ceramic materials. The magnetic elements can adsorb the magnetic samples in the microplate.
The upper lateral side of the cuboid plate of this invention matches the lower lateral side of the microplate, and the lower lateral side of the cuboid plate matches a magnetic plate, which is an iron plate and can be used to fix the magnetic element to the microplate by magnetic adsorption force.
The preferred material of microplate used in present invention is plastic. The microplate consists of one or two bottom sides and four lateral sides. The bottom side has wells (column shape or cuboid shape; 6, 12, 24, 96, 108 wells can be used) arranged in grid to contain the sample.
The lower lateral side of microplate and the upper lateral side of cuboid plate, can be designed a latch for the microplate and cuboid to easily match each other. The arrangement of the wells in the cuboid plate can be designed upon request, which means the well in the cuboid plate is not necessary to be precisely corresponding to the microplate. Moreover, a corner on the microplate and cuboid plate can also be eliminated for easily identifying the direction of the plate.
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Number | Date | Country | Kind |
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098220145 | Oct 2009 | TW | national |