The miBot manipulator is a mobile micro-robot. It means that it moves directly over the surface of the base on which your sample lays and has no mounting screws. The manipulator can therefore be pre-positioned by hand, making it very fast to set-up and reconfigure.
Moreover, no movements of the miBot manipulator are coupled. It makes it extremely intuitive to control, significantly reduces the time to achieve complex manipulation, and eliminates the risk of damaging samples.
The easiness-of-use of the miBot manipulator enables anybody to be trained in a few minutes and quickly obtain results from his applications.
The miBot monolithic design is really compact (5 cm3). This makes it more robust and provides a better mechanical and thermal stability than larger manipulators with multiple axes. Furthermore, the arm length being short, sensitivity to vibrations is drastically reduced.
The extreme high resolutions of positioning of the miBot manipulator are achieved thanks to the use of piezoelectric actuators. In scanning mode, the smallest step the miBot can make is 0.5 nm! In stepping mode, the operating velocity is 2.5 mm/s. This unique capability of the miBot enables to quickly move a probe or a sensor around samples of several centimeters (e.g. wafers) and be very precise to position them at destination.
The +Mnt version of the ultra compact miBot™ not only offers intuitive positioning of probes, optical fibers and micropipettes, but it also enables you to rigidly attach accessories to its top surface. The multiple advantages of the miBot™ can thereby be exploited to position under your microscope various types of items such as samples, electronic boards or optical components. Download the miBot BT-14 +Mnt flyer
Degrees of freedom
4 (2 translations / 2 rotations)
Dimensions and weight
width: 20.5 mm
length: 20.5 mm
height: 13.6 mm
weight: 12 g
Resolution of positioning
50 nm in stepping mode
1.5 nm in scanning mode
< 2.5 mm/s
horizontal: virtually unlimited
vertical: ~10 mm
horizontal: up to 440 nm
vertical: up to 780 nm
273 K to 353 K
< 10-7 mbar