Introduction to Ray Diffractometer Products.
Instrument function: TD-5000 X-ray single crystal diffractometer is mainly used to determine the three-dimensional spatial structure and electron cloud density of crystalline substances such as inorganic, organic and metal complexes, and to analyze the structure of special materials such as twins, non-gauge crystals and quasicrystals. Determine the accurate three-dimensional space of the new compound (crystalline state) molecule (including bond length, bond angle, configuration, conformation, and even bond electron density) and the actual arrangement of the molecule in the crystal latticeIt can provide information about the unit cell parameters, space group to which the crystal belongs, the molecular structure of the crystal, the intermolecular hydrogen bond and weak interaction, and the structural information such as the configuration and conformation of the molecule. It is widely used in analytical research in chemical crystallography, molecular biology, pharmacology, mineralogy, and materials science.
Instrument features: the whole machine adopts programmable controller PLC control technology;
Easy to operate, one-button acquisition system;
Modular design, accessories plug and play, no calibration required;
Touch screen real-time ** monitoring, display instrument status;
High-power X-ray generator, stable and reliable performance;
Electronic lead door interlock device, double protection.
Instrument accuracy: 2 Angular repeatability: 00001°;
zui small step angle: 00001°;
Temperature control range: 100K-300K;
Control accuracy: 03k。
Goniometer: The four-circle concentric technology is used to ensure that the center of the goniometer can be kept unchanged no matter what kind of rotation occurs, so as to achieve the purpose of obtaining accurate data and obtain a higher integrity rate, and the four-circle concentric technology is a necessary condition for conventional single-crystal scanning.
The design of the Pilatus hybrid pixel detector is a revolutionary achievement in the field of X-ray detectors, which can achieve better data quality while ensuring low power consumption and low cooling, the detector combines the two key technologies of single photon counting and hybrid pixels, and is applied to various fields such as synchrotron radiation and conventional laboratory light sources, effectively eliminating the interference of readout noise and dark current, the hybrid pixel technology can directly detect X-rays, making it easier to distinguish signals, and Pilatus detectors can efficiently provide high-quality data, which can obtain the best data from your more challenging samples。