Hot Products

  1. Near-Field Scanning Optical Microscope: MCL-NSOM
    3/17/2016

    The MCL-NSOM is a fully operational near-field scanning optical microscope manufactured on Mad City Labs’ versatile RM21™ inverted optical microscope. This instrument is designed to allow users to convert between NSOM, SPM, and fluorescence optical microscopy techniques.

  2. Microscope For Fluorescence Microscopy
    3/14/2016

    Mad City Labs’ RM21 Microscope is a microscopy platform designed to allow direct access to the entire optical pathway, and is capable of precision alignment in the X, Y, and Z axes. The Z-axis objective lens holder is aligned with the platform's optical axis and can hold a single objective lens. 

  3. XYZ Nanopositioning System: Nano-LPMW
    3/14/2016

    The Nano-LPMW is a unique XYZ axis nanopositioning system designed to hold multiwall plates, slides, dishes, and environmental chambers. This low profile positioner has an extra-large center aperture with a 200 micron range of motion on all three axes. It is easily integrated into existing inverted optical microscopes and is compatible with numerous microscope stages.

  4. Mad City Labs Custom Solutions And OEM Partnerships
    3/14/2016

    Mad City Labs offers a broad range of custom solutions able to meet specialized requirements ranging from simple modifications of existing designs to completely custom projects. Customers can move easily from project concept to reality with in-house research scientists’ extensive knowledge of UHV instrumentation, optical spectroscopy, and nanotechnology. Mad City labs also develops custom firmware and dll’s to speed up final product development by incorporating special motion profiles into a OEM Nano-Drive® controller.

  5. MicroMirror TIRF System
    3/10/2016

    Mad City Labs' MicroMirror TIRF system is a new single molecule imaging instrument composed with high precision, high stability nanopositioning and microscopy technologies. It is designed for studying the ordered assembly and function of multi-component biomolecular machines.

  6. Precision Nanopositioning Systems: Nano-HS Series
    4/15/2015

    The Nano-HS Series is a multi-axis, high speed, precision Nanopositioning system made up of two models, Nano-HS2 and Nano-HS3, offering picrometer positioning resolution, and XY or XYZ motion with maximum versatility. The Nano-HS Series utilizes PicoQ® Technology through its internal positioning sensors in order to provide absolute, repeatable position measurement under closed loop control.

  7. Three Axis Nanopositioning Systems: Nano-LPS Series
    4/14/2015

    Mad City Labs’ Nano-LPS Series of three-axis nanopositioning systems is comprised of three separate models with 100, 200, and 300 micron ranges of motion. Their low height makes them ideally suited for integration in inverted optical microscopes. Each model in the series is well-suited for handling biological samples due to an aperture that’s able to accommodate full size (3 inch) slides.

  8. Heavy Duty Nanopositioners: Nano-HL Series
    4/6/2015

    These nanopositioners have been designed to carry heavy optics or sensor assemblies weighing up to 10kg and have enough physical rigidity to counteract large off-axis loads with high positional stability and precise positioning. Additional features include single axis motion, and 50, 100, and 200µm motion ranges.

  9. High-Speed, Direct Drive Nanopositioners: Nano-OP Series
    3/23/2015

    This family of high-speed nanopositioners is comprised of three separate models with 30, 60, and 100µm ranges of motion. They can be configured into a wide variety of applications involving interferometry, nanomanipulation, high-speed lens focusing, fiber optics, and NSOM.

  10. Piezoelectric Mirror Tip/Tilt Actuators: Nano-MTA Series
    2/23/2015

    The Nano-MTA series is comprised of single and two axis piezoelectric mirror tip/tilt actuators with nanoradian resolution, making them ideal for applications involving high speed laser beam steering, optical disk manufacturing, interferometry, optical trapping, FBG writing, astronomy, and active optics.