Exploring the Microscopic World with Multi-Probe Micromanipulators
Microscopic entities are the ones that cannot be seen with the naked eye and need a microscope to view their structure, properties under various conditions, and other features. For an optimal view, microscopes must be adjusted in terms of magnification, creation of a cross sections, and more. To support this optimization, a multi-probe micromanipulator can be integrated with the microscope to modify the object angle or pull or stretch certain parts, or isolate key components for analysis by other techniques. A wide range of tools and probes are available with a micromanipulator, including probes, microtweezers, knives, needles, and separators. This post focuses on the use of multi-probe micromanipulators along with microscopes in analyzing various samples and supporting failure analysis and scientific research.
Why Use Multi-probe Micromanipulators for Microscopic Scientific Research?
While there are manual and single-probe micromanipulators in use, they have certain limitation in handling and manipulating samples. Motorized multi-probe micromanipulators are designed to overcome these limitations in terms of complex sampling and manipulation. These technologically advanced micromanipulators allow scientists and engineers to rapidly position and control multiple probes, which expedites research and ensures accuracy. Here are some features of multi-probe micromanipulators.
- Tool capabilities include micro-injectors, micro-scissors, micro-knives, micro-tweezers, and electrode holders, mostly made of tungsten carbide. These are used for various tasks such as cutting samples, pinpoint marking, micro-liquid handling, and separating certain substances from the sample.
- These probes enable the sampling of substances as small as one micron with positioning precision of 100 nm. This allows simultaneous yet independent interactions at multiple points on a sample. The accuracy in probe movements is achieved using advanced stepper-motor systems.
- Multi-probe micromanipulators ensure precise yet versatile manipulation control when it comes to separation and handling of complex manipulative tasks such as assembling microscopic components. This is very useful in material science, chemical structures, and other nanostructure topics.
- It microscope has a GigE camera and diagonal luminosity controller for improved magnification and light adjustments.
- The multiple probes feature has certainly opened new avenues in research, development and failure analysisthat occurs at the microscopic level, and requires complex tasks, precision movements, and dexterity.
Applications of Multi-Probe Micromanipulators in Research
Some diverse applications of multi-probe micromanipulators in various branches of material science, photonics, microfabrication, nanotechnology, and more.
- Micro-sample Handling: Micromanipulators ensure precise handling as well as examination of microscopic materials during assembly, analysis, and targeted microfabrication. These probes help ensure accurate positioning and failure analysis of micro components.
- Optics: They are used for precisely aligning optical fibers required in advanced and high-speed communication networks.
- Material science: These systems assist in the micromanipulation of various types of micro-particles and microscopic structures for research and analysis.
- Microfabrication: These products are used for the precise assembly of microfluidic devices and handling delicate micro components. They are used in assembling nanostructures when creating nanodevices.
- Nanotechnology: These devices are used in positioning and manipulating structures for nanoparticlefor research and development.
With the ever-increasing demand for research and development in material science, advanced communication technologies, nanotechnology, and many other fields, there has been a surge in the use of multi-probe micromanipulators. Here multiple-probe micromanipulators serve the purpose in terms of precision, simultaneous operations on a single sample or cell, adjustments, and more. You should ensure your source this device from an authorized supplier before investing in one. Also, it must be compatible with your existing infrastructure and simultaneously scalable for future expansions. If you have any questions about using multi-probe micromanipulators in your application, custom options, and more, you can consult Barnett Technical Services. The company is an authorized distributor for various brands of micromanipulator systems such as Micro Support.