Chamber slide แบบ 8 ช่อง – สำหรับงานเพาะเลี้ยงเซลล์, immunofluorescence หรือการถ่ายภาพความละเอียดสูง

• แบบ All-in-one chamber slide สำหรับการเพาะเลี้ยงเซลล์ และการถ่ายภาพด้วยกล้องจุลทรรศน์ ช่วยประหยัดค่าใช้จ่ายในการทำการทดลอง เนื่องจากใช้เซลล์และ Reagent ในปริมาณน้อย
• ก้นภาชนะมีความบางเหมือนกับ Coverslip สามารถใช้ในการถ่ายภาพความละเอียดสูงได้ 
• เหมาะสำหรับการถ่ายภาพด้วยกล้องจุลทรรศน์หลากหลายเทคนิค (เช่น DIC, widefield fluorescence, confocal microscopy, two-photon microscopy, FRAP, FRET, FLIM หรือ LSFM)

A chambered coverslip with 8 wells for cell culture, immunofluorescence, and high-end microscopy

• All-in-one 8 well chamber slide for cost-effective experiments—small number of cells and low volume of reagents needed
• In this microscopy slide, the cells are imaged on a No. 1.5 polymer coverslip bottom with the highest optical quality
• A cell culture chamber suitable for most microscopy techniques
• Surface Modification: Uncoated: #1.5 polymer coverslip, hydrophobic, sterilized
  Pcs./Box: 15 (individually packed)
• Surface Modification: ibiTreat: #1.5 polymer coverslip, tissue culture treated, sterilized
  Pcs./Box: 15 (individually packed)
• Surface Modification: Collagen IV: #1.5 polymer coverslip, sterilized
  Pcs./Box: 15 (individually packed)
• Surface Modification: Poly-L-Lysine: #1.5 polymer coverslip, sterilized
  Pcs./Box: 15 (individually packed)
• Pcs./Box: 15 (individually packed)
  Surface Modification: Collagen I: #1.5 polymer coverslip, sterilized

Applications

• Cultivation and high-resolution microscopy of cells
• Fluorescence microscopy of living and fixed cells
• Immunofluorescence staining
• Live cell imaging over extended time periods
• Transfection assays
• Various microscopic techniques (e.g., widefield fluorescence, confocal microscopy, two-photon microscopy, FRAP, FRET, FLIM, or LSFM)
• Differential interference contrast (DIC) when using a DIC lid

Want to know if you should use a glass or a polymer bottom for your application? Find out here.

Specifications

Outer dimensions (w x l)	25.5 x 75.5 mm²
Number of wells	8
Dimensions of wells (w x l x h)	9.4 x 10.7 x 6.8 mm³
Volume per well	300 µl
Total height with lid	8 mm
Growth area per well	1.0 cm²
Coating area per well	2.20 cm²
Bottom: ibidi Polymer Coverslip

Define and print your experimental setup

Technical Features

• Chambered coverslip with 8 independent wells and a non-removable polymer coverslip-bottom
• Now also available as a µ-Slide 8 Well ^high with extra high individual walls to keep cross contamination between wells as low as possible
• ibiTreat (tissue culture-treated) surface for optimal cell adhesion
• Imaging chamber slide with excellent optical quality for high-end microscopy
• Compatible with staining and fixation solutions
• Biocompatible plastic material—no glue, no leaking
• Available as a Bulk Pack with 90 individually packed µ-Slides per box
• Also available as an adhesive version without a bottom: sticky-Slide 8 Well
• Also available with a Glass Coverslip Bottom: µ-Slide 8 Well Glass Bottom for special microscopic applications
• Additional version available with a 500 µm grid: µ-Slide 8 Well Grid-500

The Principle of the µ-Slide 8 Well

The Coverslip Bottom

The µ-Slide 8 Well comes with a thin ibidi Polymer Coverslip Bottom that has the highest optical quality (comparable to glass) and is ideally suitable for high-resolution microscopy. It is also available as a sticky version without any bottom, or and as an option with a Glass Coverslip Bottom for special microscopic applications.

Find more information and technical details about the coverslip bottom of the ibidi chambers here.

The ibiTreat Surface

ibiTreat (tissue culture-treated) is our most recommended surface modification, because almost all adherent cells grow well on it without the need for any additional coating.

Find more information about the different surfaces of the ibidi chambers here.

Application Examples

Immunofluorescence

The ibidi µ-Slide 8 Well allows for standard immunofluorescence protocols to be employed without the use of coverslips in an all-in-one chamber. All steps (e.g., cell cultivation, fixation, staining, and imaging) are carried out in the open well geometry. After staining, the sample can be observed through the coverslip bottom using high-resolution microscopy.

Fluorescence microscopy of MDCK cells. Mitochondria (MitoTracker, red), Actin cytoskeleton (Phalloidin, green), nuclei (DAPI, blue).

Live Cell Imaging

The µ-Slide 8 Well enables high-resolution live cell imaging using different brightfield and fluorescence techniques. Here, live cell microscopy was performed using the µ-Slide 8 Well in the ibidi Heating System, Universal Fit, for 1 Chamber on a Nikon Eclipse TIE inverted microscope.

Live cell imaging in a µ-Slide 8 Well using transmitted light.

Live cell imaging in a µ-Slide 8 Well using fluorescence.

Confocal microscopy of a T lymphocyte
Confocal image of a Jurkat T lymphocyte (bottom) forming an immunological synapse with an antigen-presenting cell (top, blue). Filamentous actin is visualized in green. Multivesicular bodies in magenta. Cells were imaged on a µ-Slide 8 Well. Image by Manuel Izquierdo, IIBM, CSIC, Madrid, Spain.

Live Cell Imaging of Algae
Brightfield microscopy of the green freshwater algae Haematococcus pluvialis in a µ-Slide 8 Well. The cells are in an immature cyst state with developing centers, filled with the strong antioxidant astaxanthin (red), and surrounded by Chlorophyll from the chloroplasts (green). 40x objective lens.

Live Cell Imaging of Fibroblasts After Transfection
Live cell imaging on an inverted widefield fluorescence microscope. Rat fibroblast cells 24 hours after transfection with pCMV-eGFP. Red: Rhodamine-labelled fluorescent lipoplexes, Green: eGFP fluorescence. 60x objective lens.

DIC Microscopy of Mammalian Cells
Differential interference contrast (DIC) microscopy of mammalian cell culture (fibroblasts) using the µ-Slide 8 Well and the DIC lid for µ-Slides. 63x objective lens.