#United States #San Diego #motion control #PI #Neuroscience 2025

Discover PI's Cutting-Edge Motion Control Solutions for Life Science Research at Neuroscience 2025

This November, the vibrant city of San Diego will host the Neuroscience 2025 conference, a significant gathering of top researchers and microscopy experts. This event promises to be an exciting opportunity for attendees to share their insights and experiences regarding breakthrough tools that advance the field of life sciences. Notably, PI (Physik Instrumente) will showcase its high-precision motion and nanopositioning solutions—technologies designed to enhance performance across various applications such as super-resolution microscopy, live-cell imaging, and 3D optical metrology.

Innovative Technologies by PI

PI is well-known for its commitment to innovation in motion control systems. During the conference, visitors will have a chance to experience several products that are pushing the boundaries of traditional imaging technologies:

• - Direct-Drive Linear Stages: These precision-engineered compact linear stages, like the V-141 and V-131 models, are particularly suited for microtomy applications. Their design promises reliability and precision, catering to the unique demands of life-science research.

• - Piezo-Driven Nano-Focus Motors: The P-725 series features a nano-focus stage that offers an impressive 800µm range of vertical travel with sub-nanometer resolution. This sensitivity enables researchers to perform Z-stack image acquisition and two-photon microscopy with enhanced accuracy. The design eliminates friction and wear, ensuring a virtually unlimited operational lifespan—an essential quality in a laboratory setting.

• - 6-Axis Hexapod Manipulators for Microsurgery: These devices are engineered for coordinated movement across all six degrees of freedom. With sub-micrometer precision, they are perfect for applications involving robotics in microsurgery or multi-axis microscopy. Researchers will greatly appreciate their reliability in high-stakes surgical environments.

• - Low-Profile, High-Speed XY Stages: Utilizing patented ultrasonic piezo motors, PI’s XY stages offer both broad velocity ranges and exceptional position stability. Coupled with user-friendly controls and advanced software, these stages exemplify ease of use without compromising on performance, providing turnkey operation for various microscopy tasks.

• - Microscopy and Bio-Nanotechnology Solutions: Supporting advanced imaging techniques, PI's broad array of fast Z-sample stages and XYZ nanopositioning systems facilitate subatomic resolution and single-molecule microscopy. These innovations help researchers rapidly conduct 3D imaging and deconvolution microscopy, significantly enhancing their capabilities in life science research.

• - Voice-Coil Nanopositioning Stages for DNA Sequencing: Designed for optimal agility, PI’s latest scanning stage offers users 7 mm of travel with nanometer-level precision. Its compact and high-speed construction enhances versatility in microscope objectives’ vertical operation. This system also includes EtherCAT-based drives for seamless OEM integration into multi-axis motion systems.

Join Us at Neuroscience 2025

For those unable to attend Neuroscience 2025, fear not! Comprehensive information regarding PI’s advanced motion control solutions for life sciences, imaging, and microscopy is readily available through various online platforms. Researchers and industry professionals are encouraged to explore PI Americas to view detailed specifications, performance standards, and integration capabilities.

Conclusion

As life sciences continue to evolve, innovations such as PI’s motion control solutions are crucial in supporting the complex demands of modern research. Join us at the Neuroscience 2025 conference in San Diego this November to learn more about how these technologies are set to transform scientific discovery.

For more information about PI’s offerings, visit PI Americas or contact them directly at (508) 832-3456. Stay at the forefront of scientific advancements with PI as we navigate the future of life sciences together.