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    首页 分子通 titanium di-(n-propoxy)-di-(2-ethylhexanoate)

    titanium di-(n-propoxy)-di-(2-ethylhexanoate) | 156215-19-9

    分子结构分类

    有机化合物 - 有机金属化合物 - 有机过渡后金属化合物
    中文名称
    ——
    中文别名
    ——
    英文名称
    titanium di-(n-propoxy)-di-(2-ethylhexanoate)
    英文别名
    2-Ethylhexanoate;propan-1-olate;titanium(4+)
    titanium di-(n-propoxy)-di-(2-ethylhexanoate)化学式
    CAS
    156215-19-9
    化学式
    C22H44O6Ti
    mdl
    ——
    分子量
    452.468
    InChiKey
    FPPNMFNTSDOCMZ-UHFFFAOYSA-L
    BEILSTEIN
    ——
    EINECS
    ——
    • 物化性质
    • 计算性质
    • ADMET
    • 安全信息
    • SDS
    • 制备方法与用途
    • 上下游信息
    • 反应信息
    • 文献信息
    • 表征谱图
    • 同类化合物
    • 相关功能分类
    • 相关结构分类

    计算性质

    • 辛醇/水分配系数(LogP):
      1.42
    • 重原子数:
      29
    • 可旋转键数:
      10
    • 环数:
      0.0
    • sp3杂化的碳原子比例:
      0.91
    • 拓扑面积:
      126
    • 氢给体数:
      0
    • 氢受体数:
      6

    反应信息

    • 作为反应物:
      描述:
      titanium di-(n-propoxy)-di-(2-ethylhexanoate) 以 neat (no solvent) 为溶剂, 生成 rutile
      参考文献:
      名称:
      Characterization of nanosized TiO2 synthesized inside a porous glass–ceramic monolith by metallo-organic decomposition process
      摘要:
      This work reports the preparation of TiO2 by decomposition of a metallo-organic precursor (MOD process) in the pores of an alpha-NbPO5 glass-ceramic monolith (PGC-NbP) and the study of the TiO2 anatase-rutile transition phase. The impregnation of titanium di-(propoxy)-di-(2-ethylhexanoate) in the PGC-NbP was confirmed by diffuse reflectance infrared spectroscopy. In the restrictive porous environment the decomposition of the metallo-organic compound exhibits a lower initial decomposition temperature but a higher final decomposition temperature, in comparison to the free precursor. The pure TiO2 rutile phase is formed only above 700 degreesC when the titanium precursor is decomposed outside the pores. The TiO2 anatase obtained inside the PGC-NbP was stabilized up to 750 degreesC and exhibits a smaller average crystallite size in comparison with the MOD process performed without PGC-NbP. Furthermore, the temperature of the TiO2 anatase-rutile transformation depends on crystallite size, which was provided by XRD and Raman spectroscopy. The precursor impregnation-decomposition cycle revealed a linear mass increment inside PGC-NbP. Micro-Raman spectroscopy shows the presence of a gradient concentration of the TiO2 inside the PGC-NbP. The use of the MOD process in the PGC-NbP pores has several advantages: control of the amount and the nature of the phase formed and preservation of the pore structure of PGC-NbP for subsequent treatments and reactions. (C) 2004 Elsevier Ltd. All rights reserved.
      DOI:
      10.1016/j.jpcs.2004.08.029
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