结晶
化学
无定形固体
结晶水
结晶学
Crystal(编程语言)
吸附
化学工程
晶体生长
晶体结构
核磁共振波谱
形态学(生物学)
乳糖
光谱学
谱线
水活度
分子
核磁共振谱数据库
红外光谱学
X射线晶体学
单晶
作者
Fanghui Fan,Yuwen Ou,Hao Deng,Xudong Liu,Yiwen Sun
标识
DOI:10.1021/acs.analchem.5c00297
摘要
We provide an integrated strategy for scientists seeking to comprehend the participation of water in amorphous lactose crystallization and its impact on crystal morphology across different water activity (aw) levels and temperatures. Low-field nuclear magnetic resonance (LF-NMR) and segmented magnetic resonance imaging (MRI) results unveil a cyclic migration process of water involving a gas–liquid–solid migration during sorption and crystallization stages within the analyzed samples. The corrected terahertz time-domain spectroscopy (THz-TDS) spectra indicate that water molecules have a perturbative effect and actively participate in lactose vibration formation. Comparison between theoretical and experimental Raman spectra reveals a tendency for β-lactose anhydrate to isomerize into α-lactose anhydrate upon insertion of water, leading to the formation of α-lactose monohydrate. The lactose crystal morphologies influenced by water from amorphous to crystalline state include α-/β-lactose anomers → mixed α-/β-lactose anhydrate crystals and α-lactose monohydrate → α-lactose monohydrate and β-lactose anhydrate → α-lactose monohydrate and α-lactose anhydrate unstable → recrystallized α-lactose monohydrate. These findings have broad implications for fundamental science and practice, enabling precise control over lactose-based products.
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