Crystals (Dec 2023)

Study on the Growth and Regulation of Large-Particle Sr(OH)<sub>2</sub>·8H<sub>2</sub>O Crystals with Process Analytical Technology

  • Binbin Shi,
  • Yongjuan Zhang,
  • Shudong Liang,
  • Yanan Wang,
  • Yan Jing,
  • Xingwu Zou,
  • Xuezhong Wang

DOI
https://doi.org/10.3390/cryst14010004
Journal volume & issue
Vol. 14, no. 1
p. 4

Abstract

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Sr(OH)2 is an indispensable strontium compound extensively harnessed in sugar refining, strontium lubricating wax formulation, and polymer plastic stabilization. Sr(OH)2·8H2O is the prevalent hydrate form of Sr(OH)2. Deprived of moisture via vacuum drying, Sr(OH)2 can be procured from Sr(OH)2·8H2O. Sr(OH)2·8H2O particles with larger sizes exhibit impressive attributes such as facile solid–liquid divergence, elevated product purity, expedient drying, and resilience to agglomeration, which have garnered significant interest. Given the superior quality of the product and the dependability of the process, process analytical technology (PAT) has been extensively employed in the pharmaceutical sector, rendering it feasible to employ PAT to fabricate large-particle Sr(OH)2·8H2O crystals. This study utilizes industrial SrCO3 to prepare high-purity Sr(OH)2·8H2O with a purity of over 99.5%. The growth process of single crystals was observed using a hot-stage microscope, and the growth process of large-particle Sr(OH)2·8H2O was optimized and regulated online using PAT. The optimal process conditions were optimized, and large-particle Sr(OH)2·8H2O crystals were obtained by adding crystal seeds. On this basis, we proposed a seed control mechanism for Sr(OH)2·8H2O.

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