Used MICROMANIPULATOR 7000 #9079802 for sale
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ID: 9079802
Prober
Motorized X, Y
BAUSCH & LOMB objectives: 2.25x, 8x, 25x
BAUSCH & LOMB Eyepiece: 10x
Vacuum chuck, 6"
Magnification zoom: 1x-2x.
MICROMANIPULATOR 7000 is a high-end prober designed for precise manipulation of nanostructures. It is designed to enable efficient precision probing, manipulation and small-scale movement of delicate microstructures, such as those encountered in nanotechnological research. 7000 features state-of-the-art mechanical design that allows for exceptional accuracy and stability throughout the entire operation process. Its high-precision optical positioning components allow for high-resolution manipulation of nanostructures, enabling precise positioning and measurements within nanometer range. The system also includes an easy-to-use control console, which includes several preset tools and functions that enable the user to create and modify their own custom probes and tools, allowing for greatly increased functionality. MICROMANIPULATOR 7000 is compatible with a variety of nano-structures, including carbon nanotubes, DNA nanowires, graphene, and other 2D materials. It is also highly compatible with nanofabrication facilities, allowing for greater integration with a range of different nanostructures. In addition to its exceptional mechanical design, 7000 also features powerful software capabilities. The integrated software allows for increased operator control and precision, with real-time visual feedback that is linked to motion of the manipulator arms. This control system is highly compatible with both current and legacy software systems, allowing for seamless integration between old and new systems. MICROMANIPULATOR 7000 provides unparalleled accuracy with an accessible price point, making it an attractive solution for nanofabrication as well as research and development of nano-products. With its powerful optical and software capabilities, it provides a powerful tool for nanoscopic measurements and manipulation, allowing for precise control and positioning of delicately nanostructures.
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