Zellmechanik ´¡³¦°ä±ð±ô±ô±ð°ù²¹³Ù´Ç°ùâ„¢
Inverted microscope
Description
Zellmechanik ´¡³¦°ä±ð±ô±ô±ð°ù²¹³Ù´Ç°ùâ„¢ is an inverted microscope that explores the physical properties of cells as a biomarker and measures mechanical phenotypes within the cytoskeleton and cell cycle. Using the fluorescence-module we are able to link both intracellular and cell surface antigen expression with the mechanical properties or deformability.
Specifications
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- Processes up to 1,000 cells per second.Â
- Applies non-destructive forces to cells or beads to observe deformation, enabling the study of mechanical responses to physical stress.
- Captures and stores images of each cell, allowing analysis of optical properties and morphological features such as surface topology and light attenuation.
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- Blue 488nmÂ
- Yellow/Green 561 nmÂ
- Red 640nm
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- 500-550 nm
- 570-610 nmÂ
- 6675-735 nm
Applications
- Mechanical Phenotyping
- Single-Cell Analysis
- Biomechanics Research
- Cell-Material Interactions
- Biomaterial Development
Instrument location
Flow Cytometry Facility
Level 2, Bioscience South (E26)
University of New South Wales
Sydney, NSW 2033
Phone:Â 0413 381 213
·¡³¾²¹¾±±ô:Ìýe.johanssonbeves@unsw.edu.au
Dr. Emma Johansson Beves
Cytometry Scientist
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Phone
0413 381 213 -
Email
e.johanssonbeves@unsw.edu.au
Mayssa Sharabas
Technical Staff
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Email
m.sharabas@unsw.edu.au
Parent facility
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