GoGo Instruments Technology (Shanghai) Co., Ltd. specializes in temperature control technology, offering a range of patented products including probe heating/cooling stages, optical heating/cooling stages, in situ stretching stages, in situ XRD/SEM heating/cooling stages, ultra-high-temperature heating stages, and high/low-temperature test chambers, as well as testing systems for dielectric thermal spectra, electrocaloric effects, charge-discharge testing, and variable-temperature D33 measurements.

In-situ X-ray diffraction (XRD) can real-time monitor the changes in phase and lattice parameters within the electrode or electrode-electrolyte interface during the charge-discharge cycles of a battery, providing crucial perspectives and data support for in-depth research into the working and failure mechanisms of batteries.

The XRD in-situ lithium battery device from GoGo Instruments enables in-situ XRD testing during the charge-discharge process of lithium batteries. This allows for the observation of structural and phase transitions occurring in the electrode material during cycling, precisely revealing the battery's reaction mechanisms. The window is made of high-purity Be (Beryllium) and can be replaced with quartz glass for in-situ Raman spectroscopy testing.

GoGo Instruments' XRD in-situ lithium battery device is compatible with universal X-ray diffractometers from manufacturers such as Thermo Fisher, Bruker, PANalytical, Rigaku, and Shimadzu.

PANalytical B.V. (Netherlands) became the world's largest producer of X-ray analytical instruments after launching its first X-ray analytical instrument in the 1940s. Based on customer requirements, GoGo Instruments customizes XRD in-situ lithium battery devices adapted to PANalytical X-ray diffractometers for X-ray diffraction testing of solid-state batteries.

Main Product Features:

1. Enables in-situ acquisition of X-ray diffraction patterns in reflection mode during normal charge-discharge processes of lithium batteries.
2. Diffraction angle (2θ) range: 0°to 164°.
3. Main body constructed from 316L stainless steel, offering strong corrosion resistance.
4. Compact size, slot-type structure compatible with Z-axis displacement stages for easy installation and adjustable height.
5. Reusable design. Inverted installation for electrode materials and electrolyte; easy assembly ensures sealing performance after repeated disassembly and reassembly.
6. The entire device is extremely quick and easy to disassemble and assemble; all battery components are easy to clean. The installation/disassembly process is simple.