Yttrium Chloride (CAS NO : 10361-92-9)

Our Yttrium Chloride formulations depends on strict moisture exclusion, precise crystal phase control, and absolute elemental purity. Because anhydrous yttrium chloride is highly deliquescent, it can absorb atmospheric moisture within seconds, rapidly converting into a hexahydrate crystalline structure (YCl3 • 6H2O) or partial oxychlorides (YOCI). This high water affinity can cause severe processing challenges in moisture-sensitive organic reactions or high-temperature vacuum metallurgy, where outgassing leads to uneven reaction kinetics and structural micro-voids.

Our advanced chemical processing line addresses this via high-vacuum dehydration under a controlled anhydrous hydrochloric acid (HCI) gas blanket, preventing the formation of oxychloride impurities. Our Anhydrous Pure Grade delivers a dry, free-flowing crystalline powder with an exceptionally low oxide baseline. It is immediately packed under an ultra-pure argon atmosphere in multi-layer moisture-barrier containment. Furthermore, we systematically restrict transition metal contaminants (Fe, Cu, Ni) and non-yttrium rare earth impurities to parts-per-million thresholds, ensuring stable dielectric performance, sharp catalytic activity, and zero structural variations in continuous automated manufacturing workflows.

In Ziegler-Natta or metallocene-type polymerization catalysts, the active center relies on an air-sensitive yttrium-carbon bond. If trace moisture is present in the Y Cl3 feedstock, it reacts preferentially to hydrolyze the metal-alkyl matrix, permanently deactivating the catalyst and creating unreactive yttrium oxides. To ensure an unadulterated chemical transformation, our Anhydrous 4N5 Grade undergoes advanced vacuum-thermal dehydration under an anhydrous HCI gas atmosphere, reducing moisture to ≤ 0.10%. Because this intensive purification requires specialized cleanroom handling and rigorous inert-gas vacuum packaging, the standard commercial manufacturing lead time for container-scale allocations of this grade is 10 to 12 weeks.

Rare earth halides like Yttrium Chloride are classified as critical strategic materials, leaving global enterprise supply lines highly vulnerable to shifting international trade quotas, environmental compliance adjustments, and unpredictable spot-market pricing spikes. Relying on fragmented open-market traders exposes your business to unexpected delivery delays and irregular batch specifications that can halt sensitive chemical lines. We eliminate this vulnerability by offering structured commercial volume agreements backed by pre-allocated production tracks and strategically managed regional distribution hubs. For long-term contract partners, we maintain a steady, repeatable lead time of 6 to 8 weeks for standard 20 Metric Ton (1 FCL) sea-freight container deliveries of our technical or solution grades.

We bridge the gap between advanced chemical synthesis and strict corporate quality assurance parameters. Every delivery is supported by an extensive, auditable documentation package containing a lot-specific YCI3• 6H20 COA, fully detailed GHS-compliant YCI3 Sds and a Technical Data Sheet of YCI3• 6H20. Our quality control protocol includes batch-specific ICP-MS elemental sweeps to track non-yttrium rare earth cross-contamination and laser diffraction mapping for particle size uniformity. This pre-validated analytical data package allows sourcing managers to bypass long incoming-material customs quarantine windows and accelerate compliance releases across more than 17 countries.