Description

Confocal and Multiphoton Microscopes: Unveiling Cellular Structures with Unprecedented Clarity

Experience the power of advanced optical microscopy with our range of confocal and multiphoton microscopes. These cutting-edge instruments offer unparalleled resolution and depth penetration, enabling researchers to visualize intricate cellular structures and dynamic processes with unprecedented detail. Whether you're studying live cells, tissue samples, or in vivo models, our microscopes provide the tools to unlock groundbreaking discoveries.

Confocal Microscopes:

Our confocal microscopes utilize a pinhole to eliminate out-of-focus light, significantly enhancing image clarity and contrast. This technology allows for the creation of high-resolution optical sections, enabling the reconstruction of 3D images from a series of Z-stacks. Key features and benefits include:

• Exceptional Image Quality: Elimination of out-of-focus blur results in crisp, clear images with superior resolution and contrast compared to traditional fluorescence microscopy.
• Optical Sectioning: Generate sharp, high-resolution images of specific depths within thick samples.
• Versatile Applications: Suitable for a wide range of applications including immunofluorescence, live cell imaging, and 3D reconstruction.
• Advanced Imaging Modes: Options include time-lapse imaging, spectral imaging, and fluorescence recovery after photobleaching (FRAP).
• Modular Design: Customize your system with a range of detectors, lasers, and objectives to meet your specific research needs.
• Intuitive Software: User-friendly software provides easy control over all microscope functions and comprehensive image processing capabilities.

Multiphoton Microscopes:

Our multiphoton microscopes utilize near-infrared (NIR) light to excite fluorophores, offering significant advantages for deep tissue imaging and live cell studies. This technology minimizes photobleaching and phototoxicity, allowing for longer observation times and reduced damage to the sample. Key features and benefits include:

• Deep Tissue Penetration: NIR light penetrates deeper into tissues compared to visible light, enabling imaging of structures far below the surface.
• Reduced Photodamage: Lower excitation energy reduces photobleaching and phototoxicity, ideal for long-term live cell imaging.
• Intrinsic 3D Sectioning: The nonlinear nature of multiphoton excitation provides inherent optical sectioning without the need for a pinhole.
• Precise Targeting: Enables targeted excitation of specific fluorophores within complex samples.
• In vivo Imaging Capabilities: Ideal for visualizing dynamic processes in living organisms.
• Advanced Imaging Modes: Offers capabilities for second harmonic generation (SHG) and third harmonic generation (THG) imaging.

Choose the Right Microscope for Your Research:

Our comprehensive range includes models designed to meet diverse research needs and budgets. We offer both upright and inverted configurations, various laser options, and a wide selection of objectives. Our expert team will work with you to select the optimal system tailored to your specific applications and research goals.

Key Specifications (Vary by Model):

• Laser Sources: Multiple excitation wavelengths available (e.g., 405nm, 488nm, 561nm, 633nm, and NIR).
• Detectors: High-sensitivity detectors for optimal signal acquisition.
• Objectives: A range of high-quality objectives with various magnifications and numerical apertures.
• Software: Advanced software for image acquisition, processing, and analysis.
• Optional Accessories: A range of optional accessories are available to expand the capabilities of your microscope.

Contact us today to learn more and discuss your specific research requirements. We'll help you choose the perfect confocal or multiphoton microscope to elevate your research to new heights.