The Mad360™ is a compact precision rotational stage. The rotational motion is bidirectional and continuous 360°. Minimum rotational steps of 1 milliradian and capable of speeds up to 20 rotations/second, the Mad360™ is a versatile motion control device.

Mad City Labs recently announced the release of the MCL-NSOM, a versatile near-field scanning optical microscope (NSOM). The MCL-NSOM is an aperture NSOM built on Mad City Labs RM21™ inverted optical microscope, which allows users to convert to aperture-less NSOM, AFM and fluorescence optical microscopy.

Single-molecule microscopy techniques facilitate direct study of molecular mechanisms, enabling leaps in understanding surrounding how viruses assemble, disassemble, and interact with their hosts.

NSOM techniques and instrumentation have evolved to become vital tools for material characterization, providing high-quality data and continually expanding utility.

Resonant probe atomic force microscopes’ unique construction and functionality enable them to serve in applications demanding spot-on accuracy, adaptability, and exceptionally high definition.

SPM-M Kit is designed to allow operators to build a tuning fork, Akiyama probe, AFM (atomic force microscope), or a scanning resonant probe microscope to capture high resolution imagery in both commercial and R&D applications. The kit includes a Nano-SPM200 nano-positioning stage (XY), a Nano-OP30 nano-positioning stage (Z), and a 3 axis closed loop Nano-Drive® controller, but it may also be customized by substituting any nano-positioners and pico-positioners and many additional options.

Extreme metrology applications involve more than enough unknown variables. Instrumentation whose performance has been proven should not be one of them.

Customers with a clear-eyed view of the solution’s basic specifications, budget, and expected timeline are well-positioned for an efficient, effective custom design experience.

Whether modifying existing instrumentation or building a new tool from the ground up, a meticulous process is as critical as the functional result.

Custom positioning solutions provide more leeway for innovation, and at far less cost, than many customers realize.

This article examines how micropositioners affect movement and positioning capability, as well as overall task effectiveness, by creating --literally -- a solid foundation for work at the nanoscale.

Progress in understanding the lipid bilayer – a two-molecule thick oily barrier that protects all living cells – has been dramatic over the past 100 years. But puzzles remain to be solved, such as how these membrane proteins navigate the oily lipid bilayer to go about their work.