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Merck
CN

M04L-03-5PK

CellASIC ONIX哺乳动物细胞开口板(4腔)

The M04 open top plates enable continuous perfusion culture for live cell analysis. Laminar flow provides rapid & uniform solution exchange for maximum cell health. The glass coverslide bottom surface ensures the highest resolution optical viewing.

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关于此项目

UNSPSC Code:
41104923
NACRES:
NB.22
eCl@ss:
32011202
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产品名称

CellASIC ONIX哺乳动物细胞开口板(4腔), The M04 open top plates enable continuous perfusion culture for live cell analysis. Laminar flow provides rapid & uniform solution exchange for maximum cell health. The glass coverslide bottom surface ensures the highest resolution optical viewing.

material

PMMA
glass
polycarbonate
polydimethylsiloxane (PDMS)

manufacturer/tradename

CellASIC® ONIX

W × L × H

85.48 mm × 127.76 mm × 14.35 mm

compatibility

for use with cells sized up to 1.0 μm

Application

研究类别
细胞培养

General description

设备配置:4室

Legal Information

CELLASIC is a registered trademark of Merck KGaA, Darmstadt, Germany

存储类别

12 - Non Combustible Liquids

wgk

nwg

flash_point_f

Not applicable

flash_point_c

Not applicable


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相关内容

Convert your microscope to a live cell imaging system – the CellASIC® ONIX2 system allows precise manipulation of the cell culture environment for dynamic live cell imaging and analysis using mammalian, yeast, and bacterial cells.

We used the CellASIC™ ONIX MicroFluidic System, in conjunction with the M04S microfluidic plate, to achieve perfusion-based microenvironment control and study drug-induced cell death of 3D cultures of MCF7 cells in Matrigel®. The microfluidic chamber recreates the physiologic mass transport condition for optimized cell health. Four upstream fluidic channels allow controlled exposure of the cells to different solutions. The plate can also be cultured in a standard incubator using a dedicated gravity-driven flow channel. The cells are in contact with a #1.5 thickness (170 μm) optical glass surface, enabling high quality imaging using an inverted microscope. An integrated micro-incubator system delivers temperature and gas control to the microfluidic chambers.

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