MX160 Ball Bearing 4-axis Manipulators - 22 mm Travel
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- Model: Siskiyou MX160
A range of ball bearing 4-axis manipulators for life scientists
MX160 Series
The MX160 Manipulator series incorporates fast-pitch, screw drive positioning, and smooth ball bearing motion in the X, Y, Z, and probe axes for precision positioning. The spring-loaded lead screw design and solid stop to ensure drift-free operation.
For added positioning versatility, the top stage tilts at any angle through 360°, and includes 22 mm of linear travel along the probe axis. This feature plus 22 mm of X-axis travel make the MX160 ideal for axial cell probing.
Colour-coded controls are used to identify axis location in low light conditions.
Product features
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Siskiyou Corporation has been producing popular laboratory mechanicals for over 40 years; designing from the outset with quality and flexibility in mind.
Siskiyou do not aim at single disciplines, such as Photonics or Life Sciences, but craft their products to provide end users with the modular tools for constructing systems that are only limited by their imagination.
These concepts have ensured Siskiyou components outperform and outlast competitive products.
For more information, you can download the full Siskiyou catalogue here
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A number of papers have been published by scientists around the globe who have used Siskiyou Manipulators within their research. Here are some examples:
- System identification of Drosophila olfactory sensory neurons [MX10]
- Fabricating microfluidic valve master molds in SU-8 photoresist [MX10]
- Microaspiration for high-pressure freezing: a new method for ultrastructural preservation of fragile and sparse tissues for TEM and electron tomography [MX110]
- A stereo-compound hybrid microscope for combined intracellular and optical recording of invertebrate neural network activity [MX130]
- Early survival factor deprivation in the olfactory epithelium enhances activity-driven survival [MX160]
- Nanowires precisely grown on the ends of microwire electrodes permit the recording of intracellular action potentials within deeper neural structures [MX310]