C-S-H,托贝莫来石和珍妮特的拉曼光谱

R. James Kirkpatrick , J.L. Yarger , Paul F. McMillan , Ping Yu , Xiandong Cong
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引用次数: 216

摘要

C/S比在0.88 ~ 1.45之间的单相水合硅酸钙(C-S- h)样品的拉曼光谱与这些材料结构的缺陷托贝莫来石模型一致,与先前发表的相同样品的核磁共振(NMR)光谱数据一致。C/S比为<1.0的C-S- h样品的拉曼光谱与14Å托贝莫来石的拉曼光谱非常相似。C/S比大于或等于1.0的C-S- h样本显示Q1和Q2 Si位点的大量浓度,并表明可能存在类似珍妮特的环境。与红外和核磁共振一样,拉曼光谱是对原子最近邻和次近邻尺度上的局部结构的探测,因此提供的信息与衍射方法有很大不同。C-S-H的拉曼光谱结构丰富,包含Si-O拉伸峰、Si-O- si弯曲峰、Si-O四面体和Ca-O多面体内部变形峰以及低频特征峰。经核磁共振谱分析,珍妮弗矿与14Å托贝莫来石的光谱非常相似,证实了珍妮弗矿以Q2聚合为主。11Å和14Å托伯莫里石的拉曼光谱也很相似,尽管我们的11Å托伯莫里石样品有显著的Q3 Si位点浓度,这表明链是交联的。
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Raman spectroscopy of C-S-H, tobermorite, and jennite

Raman spectra of single-phase calcium-silicate hydrate (C-S-H) samples with C/S ratios between 0.88 and 1.45 are consistent with a defect tobermorite model for the structure of these materials, in agreement with previously published nuclear magnetic resonance (NMR) spectroscopic data for the same samples. The Raman spectra of C-S-H samples with C/S ratios <1.0 are very similar to those of 14Å tobermorite. Those of C-S-H samples with C/S ratios ⩾1.0 show substantial concentrations of both Q1 and Q2 Si sites and indicate the possible presence of jennite-like environments. Raman spectroscopy, like infrared and NMR, is a probe of local structure on the atomic nearest neighbor and next-nearest neighbor scale, and thus provides significantly different information than diffraction methods. The Raman spectra of the C-S-H have a rich structure and contain peaks for Si-O stretching, Si-O-Si bending, internal deformation of the Si-O tetrahedra and Ca-O polyhedra, and characteristic peaks at lower frequencies. The spectra of jennite and 14Å tobermorite are quite similar, confirming the result from NMR spectroscopy that jennite has dominantly Q2 polymerization. The Raman spectra of 11Å and 14Å tobermorite are also similar, although our sample of 11Å tobermorite has a significant concentration of Q3 Si sites, which indicates cross-linking of the chains.

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