Spectrometer and Integrating Sphere Heating and Cooling Stage-Product Center-Congtical Technology

Thermoelectric (Peltier) Cooled Spectrometer Heating and Cooling Stage

It can be used in conjunction with a spectrometer, features a compact footprint and rapid temperature‑change capabilities, and is well suited for studying semiconductor materials such as silicon dioxide.

Compact Spectrometer Heating and Cooling Stage

This spectrometer’s cold‑hot stage is compact and offers a wide temperature range. Up to four electrical probes can be added internally, enabling simultaneous optical and electrical signal measurements. Side brackets and atmosphere ports can also be installed, providing exceptional flexibility in use.

Fiber Optic Spectrometer Heating and Cooling Stage

Fiber-optic spectrometers can be used for optical transmission or reflection measurements under variable temperatures, as well as for optical measurements of samples excited by ultraviolet or X-ray radiation. The temperature-control software integrates temperature and spectral data, providing real-time display and storage.

Cryogenic Optical Platform

This model of cryogenic stage features a suspended vibration-isolation design, with sample‑stage vibrations kept below 100 nm. Its compact footprint facilitates seamless integration with microscopes, Raman spectrometers, and other instruments. A wide range of accessories is available, including low‑temperature piezoelectric stages, optical components, electrical connectors, and windows made from various materials, enabling versatile configurations. It is well suited for applications across the semiconductor industry, MEMS, superconductivity, electronics, printed electronics, physics, and materials science.

Thermoelectric Integrating Sphere Heating and Cooling Stage

A thermoelectric cooling‑based temperature‑controlled platform, compact in size and capable of rapid temperature changes, is designed for direct attachment to an integrating sphere. It is suitable for both transmission and reflection measurements. Cooling can be configured as either water‑cooled or air‑cooled.

Integrating Sphere Heating and Cooling Stage

TT300N-IS, equipped with an atmosphere interface, enables simultaneous temperature‑controlled measurements in various atmospheres while using an integrating sphere. A rear‑mounted channel allows for the addition of a temperature sensor to measure the sample’s internal temperature. This model is compatible with integrating spheres featuring a 40 mm‑diameter window. TS200N-IS is compact and does not rely on vacuum to prevent sample frosting; the sample is positioned close to the observation window, making installation straightforward. It can be paired with the Lambda 750s from PerkinElmer (USA) and is well suited for temperature‑dependent electrochemical analyses of batteries.

Two-Window Spectrometer Heating and Cooling Stage

The sample is loaded and unloaded using a screw‑cap design. The wide temperature‑control range makes it suitable for studying the optical properties of various materials (see Appendix 11.3). The window can be fitted with different types of optical windows, and the chamber can be equipped with a custom‑designed mounting plate tailored to spectrometer models from different manufacturers. Accessories: A2402 (spectrometer circular‑cavity mounting plate), A2404 (optical‑bench circular‑cavity bracket), A2501 (XYZ‑axis translation stage).

Multi-Window Spectrometer Heating and Cooling Stage

This is a vertical‑cavity liquid‑nitrogen‑cooled temperature stage. It features multiple observation windows, enabling convenient collection of light from various directions, and can be used in conjunction with a spectrometer to perform transmission or reflection measurements on samples. It is widely employed in the study of optical and electrical properties of materials such as organic compounds and perovskites.

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