The analysis of ion channels in membranes, and the ability to inject genes into cells, all require a steady grip that no human hand can supply. Micromanipulators allow the scientist or clinician to accomplish microinjection, patch clamp experiments, extracellular and intra-cellular recordings or precision robotics by carefully controlling microelectrode and syringe movement and capillary flow. Micro-step motors ensure precise movements in three – or even four – dimensions, with resolutions as high as 0.0625 um/step. Stop locks and extra springs ensure minimal drift along the four axes. Some micromanipulator platforms provide central control over four simultaneous manipulators. Though mostly geared toward biochemical applications, a micromanipulator also has uses in micro-electronics and material science. These models tend to have higher thermal and mechanical stability.
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Eppendorf North America
- ≥ 20 mm
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- 10,000 µm/s
Sutter Instrument
- 25 mm each axis (1 in)
- 0.0625, 0.125, 0.25, 0.5, 1.0 and 2.0 um/step
- 2.0 mm/sec
Sutter Instrument
- 25 mm each axis (1 in)
- Low: 0.2um/step, High: 0.04um/step
- 2.9 mm/sec
Sutter Instrument
- ~2 mm on each axis
- 0.1 mm (Coarse), 0.01 mm (Fine), 0.2 µm (Ultrafine)
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Sutter Instrument
- 25 mm in each axis
- Minimal microstep size is 62.5 nanometers per microstep. Display has single micron resolution.
- 3 mm/sec
Sutter Instrument
- 25 mm X-axis, 12.5 mm Y-axis
- Min. Microstep Size = 62.5 nm
- 3 mm/sec
Sutter Instrument
- 25 mm each axis
- Min. Microstep Size = 62.5 nm
- 3 to 5 mm/sec (depending on model)
Sutter Instrument
- 25 mm on X, Y and Z axes
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