Used NANOSURF Flex #293603647 for sale

Manufacturer
NANOSURF
Model
Flex
ID: 293603647
Atomic Force Microscope (AFM) Maximum scan range: 100 µm x 100 µm Resolution in XY: 1.525 nm Maximum Z range: 10 µm Resolution in Z: 0.152 nm Acoustic enclosure Operating mode: Static force Lateral force Dynamic force Phase contrast Tips: 150A1-G Sensor tap Tip radius: <10 nm Half cone angle: 20°-25° Along cantilever axis 25°-30° From side 10° At the apex.
NANOSURF Flex is an exceptionally versatile microscope designed for a wide range of imaging and surface characterization needs. It is built to provide excellent resolution and image contrast, allowing scientists to image complex samples with ease and accuracy. The microscope's core is composed of a computer-controlled microscope unit with an integrated motorized stage and a variety of optional components. An integrated nanopositioning No-Go travel range and a mechanical surface scan head with nanometer-level precision make Flex highly sensitive for imaging surfaces with topographical features that span from a few nanometers to several millimeters in size. NANOSURF Flex also provides a variety of integrated functions for convenient operation, including an ergonomic joystick for navigation, a control and feedback system for motion control, and a motor-driven focusing mechanism for fine focus adjustment. With the system, one can acquire and analyze images from any scanning electron microscope or other equipment that can be interfaced with Flex. The flexibility of the system also allows users to conduct a wide range of experiments, ranging from a simple top-down surface scan to a more thorough quantitative surface analysis. Its optical capabilities offer brightfield, darkfield, differential interference contrast (DIC), and polarized light imaging to render the finest detail of samples and measure dimensions with micron-level accuracy. NANOSURF Flex is also equipped with built-in tools for measuring surface characteristics, including roughness and corrugation. Its automated mapping functions can measure these parameters with high precision, eliminating the need to manually measure the features. What makes Flex stand out from similar setups is its versatility and accuracy. Combined with its ergonomic controls, it allows scientists to conveniently image complex samples with exceptional accuracy, enabling the development of detailed models of surface properties.
There are no reviews yet