Microscope Heating and Cooling Stage-Product Center-Congtical Technology

Polarizing Microscope Heating and Cooling Stage

The sample stage of the polarizing microscope’s temperature‑controlled stage is movable along the X and Y axes, facilitating convenient sample observation; alternatively, the translation stage can be removed to minimize the overall footprint. This model supports both ambient‑atmosphere and vacuum‑pumping testing and can be equipped with electrical test connectors. Its compact design features a lightweight, thin chamber and a streamlined structure, making it compatible with polarizing microscopes from various manufacturers. It is well suited for analyzing geological inclusions, organic polymers, and other types of samples.

Metallurgical Microscope Heating and Cooling Stage

This temperature‑controlled stage is compatible with mainstream characterization instruments such as metallographic microscopes, PL mapping systems, Raman spectrometers, and confocal microscopes. Specific application scenarios are as follows: When used in conjunction with a metallographic microscope: suitable for research and development of metals and alloys, as well as studies in metallurgy and ceramic processing. When used in conjunction with a PL mapping system: suitable for research on semiconductors (LEDs and photovoltaics), two-dimensional materials, and fluorescent materials.

Microscope In-Situ Tensile Heating and Cooling Stage

Suitable for use with an inverted microscope: after clamping the sample from the front, the stage is inverted onto the specimen holder during microscopic observation. This model’s temperature‑controlled stage employs a specialized threaded clamp mechanism to secure the sample.

Live Cell Workstation

The Live Cell Incubation System is a cutting-edge research instrument designed for studying dynamic cellular processes such as proliferation, differentiation, and drug responses. Featuring precise environmental control and a modular design, it can be seamlessly integrated with various types of microscopes, including confocal and fluorescence microscopes, making it widely applicable in fields like cell biology, cancer research, and regenerative medicine.

Microscope High-Temperature Hot Stage

The sample stage is made of a high-temperature alloy and can operate stably at 1,000°C for extended periods. It is suitable for high-temperature observations of materials such as metals and ceramics.