Ⅰ. Product Overview
The stereoscopic fluorescence microscope is a biological observation platform that integrates stereoscopic imaging and fluorescence microscopy technology. While retaining a large field of view, long working distance and authentic three-dimensional visual effects, it is equipped with a multi-band fluorescence excitation and detection system. It enables high-contrast imaging of fluorescent labeling signals on the surface and shallow structures of biological samples, making it particularly suitable for anatomical operations, whole-sample observation and rapid localization analysis.
Technical Parameters
1. Eyepiece: Wide-field eyepiece WF10X
2. Field Number: 22
3. Rotary Phase Contrast Unit: Long-working-distance Plan Achromatic Phase Contrast Objective: 5X Infinity NA0.12, 10X Infinity NA0.25, 20X Infinity NA0.4
4. Revolving Nosepiece: 4-hole Ball Bearing Internal Positioning
5. Camera Resolution: 3072×2048; Maximum Frame Rate: 59.6fps@3072×2048; Data Interface: USB3.0 Transmission
6. Total Magnification: 50X~200X
7. Vertical Effective Travel: 10-70mm
8. Base Dimensions: 427 ×204mm
9. Illumination: 6V 20W Halogen Lamp with Adjustable Brightness
II. Functional Features
Adopts a stereoscopic optical path to deliver true 3D vision and improve spatial positioning capability.
Equipped with a multi-band fluorescence excitation and filtering system, compatible with common fluorescent dyes.
Designed with long working distance and wide field of view for convenient dissection and operation.
Supports free switching between brightfield and fluorescence imaging modes for both structural and functional observation.
High-sensitivity imaging components, ideal for detection of low-fluorescence samples.
Robust mechanical structure and stable illumination system, suitable for long-duration experiments.
III. Application Scenarios & Fields
Biological anatomical research: For integral anatomical observation of insects, small animals and plant organs.
Developmental biology research: For fluorescent tracing of the development of embryos, larvae and tissues.
Neuroscience research: For fluorescent labeling and positioning on the surface of brain tissues and neural structures.
Life science teaching and training: For intuitive demonstration of anatomy and fluorescence imaging principles.
Bioengineering and medical research: For sample screening, labeling positioning and rapid evaluation.
IV. Technical Advantages
The stereoscopic optical path is deeply integrated with fluorescence imaging. It delivers high-contrast fluorescence signals under a large field of view with stereoscopic vision, improving the efficiency of anatomical positioning and screening.
The long working distance and open structure provide ample space for dissection tool operation, sample clamping and accessory installation, reducing the risk of accidental contact and enhancing experimental flexibility.
Multi-channel fluorescence and modular filter units enable quick switching for commonly used dyes. Compatible with multi-label experimental workflows, it cuts down repeated assembly and commissioning time.
The opto-mechanical system features high stability, supporting long-term continuous observation and recording. It minimizes the impact of drift and vibration to ensure reliable and reproducible fluorescence data.
It boasts intuitive operation and easy maintenance, suitable for both scientific research and teaching. Equipped with image recording and annotation functions, it facilitates experimental archiving, sharing and result reproduction.
V. Typical Application Cases
Application Object | Sample Type | Fluorescence Observation Content | Application Instructions |
Study of Insect Anatomy | Fruit flies, mosquitoes, beetles and so on | Fluorescent labeling of nervous system and muscle structure | For neural pathway localization, organ boundary recognition and overall anatomical observation |
Plant Tissue Research | Roots, leaves and vascular tissues | Fluorescent tracing of cell walls / conductive tissues | Suitable for overall structure observation and rapid positioning and screening of functional areas |
Embryonic development research | Zebrafish/mouse embryos | Fluorescent protein expression at developmental stages | Used for the overall observation, stage comparison and recording of the developmental process |
Neuroscience experiment | Brain tissue surface / Brain region section | Fluorescent labeling of neurons and synapses | 在解剖条件下快速定位目标脑区与标记分布 |
Teaching and Demonstration | Various biological specimens | Display of Typical Fluorescent Structures | Used for experimental teaching, training demonstrations and intuitive classroom explanations in life science |
Note: The above configurations can be customized and adjusted according to users' experimental requirements.
设备外观图
Insect Anatomy Research
Plant Tissue Research
