384 Well Black Plate, Coverglass Bottom, TC Surface, Pack of 6

Name: 384 Well Black Plate, Coverglass Bottom, TC Surface, Pack of 6
SKU: 164586

Color:Black, Clear Bottom; Sterility:Sterile; Lid:With Lid; Type: Optical Coverglass Base

보기 방식 변경

카탈로그 번호	수량	제품 사이즈
164586	Case of 30	Case of 30
164586TS 164586으로도 사용됨		Each

2 개 옵션

카탈로그 번호 164586

제품 가격(KRW)

수량:

Case of 30

Unit Size:

Case of 30

Achieve optimal fluorescence and luminescence in cell culture and microscopic applications with Thermo Scientific™ Nunc™ MicroWell™ 384-Well Optical-Bottom Plates with Polymer or Coverglass Base, featuring a polystyrene black or white upper structure with a polystyrene film at the bottom of the plate.

Features:

Cell culture treated surface is a hydrophilic surface that promotes cell attachment and growth
Customized bar coding is available

사양

인증/적합성All microplates manufactured by Nunc meet the recommendation of American National Standards (ANSI) (ANSI/SBS 1-2004)

뚜껑With Lid

케이스당 수30

팩당 수6

포장6/Pk., 30/Cs.

제품 유형Optical Coverglass Base

수량Case of 30

어레이16 x 24

색상Black

물질Polystyrene

웰 수384

제품라인Nunc

멸균Sterile

표면 처리Cell Culture

부피(미터법) 웰120 μL

웰 형상Flat Bottom (F-well)

Unit SizeCase of 30

자주 묻는 질문(FAQ)

What is the difference between the Nunclon Delta surface and a tissue culture (TC) surface from a competitor?

Our Nunclon Delta surface for adherent cells is a standard tissue culture (TC) surface modification that makes the polystyrene surface more hydrophilic. This facilitates maximum adhesion for a broad range of cell types.

The Nunclon Delta surface is Thermo Scientific Nunclon Delta-certified, which is a Thermo Fisher proprietary certification that has a quality standard to help ensure consistency. Every lot of Thermo Scientific Nunclon Delta-certified cell cultureware is tested with Gibco media for:
- Less than 10% growth variation in L929, Hel299 and primary chick embryo cells
- Less than 15% variation colony formation of V79-4 cells

More information and all applicable products can be found in the "Product selection guide for every step of your cell culture workflow" brochure .

Do you offer Nunc Microplate Lids for the Nunc Black or White 384-Well Microplates?

We offer Nunc Microplate Lids: Cat. No. 448143, that fit both the 384-well microplates and the 1,536-well microplates.

How does cell culturing on Nunc 384-Well Microplates that have a cell culture-treated surface compare with 96-Well Microplates that have a cell culture-treated surface?

The cell culture-treated surfaces are very similar but the wells of the Nunc 384-Well Microplates are smaller than the wells of the Nunc 96-Well Microplate.
Culture recommendations for the Nunc 384-Well Microplates are:
- 15 - 50 µL media per well
- 0.5 - 2.0 x 10^4 cells per well

What are some applications of Nunc 384-Well Black or White Microplates that have a cell culture-treated surface?

We recommend using the Nunc 384-Well Black Microplates for cell-based assays using fluorescent detection. Viability stains such as fluorogenic esterases can be used for proliferation, toxicity, and drug resistance or sensitivity assays. Many types of fluorochrome-conjugated antibodies are available for performing cell-based immunoassays. Fluorescent reporter genes are widely used for determining cell transfection.
We recommend using the Nunc 384-Well White Microplates for cell-based assays using luminescent detection. Viability stains such as luciferin/luciferase can be used for proliferation, toxicity, and drug resistance or sensitivity assays. Cell-based immunoassays can be performed using a HRP-conjugated antibody with a luminol-based substrate. Luciferase reporter genes are widely used for determining cell transfection.

Why do you offer Nunc 384-Well Black or White Microplates when the cells cannot be observed using an inverted light microscope?

We offer Nunc Black or White 384-Well microplates that are intended for use in conjunction with 384-well microplate luminometers and fluorometers that have excitation and detection systems located above the plate. Due to the opaque quality of these microplates, all detection systems must rely on either luminescent or fluorescent reagents, such as viability stains that report cell activity and membrane integrity.