对苯二甲酸铝 | 654061-20-8
中文名称
对苯二甲酸铝
中文别名
——
英文名称
[Al(OH)(1,4-benzenedicarboxylate)]
英文别名
MIL-53(Al);Basolite A100;[Al(OH)(1,4-BDC)];Al(OH)(BDC);Aluminum;terephthalate;hydroxide;aluminum;terephthalate;hydroxide
CAS
654061-20-8
化学式
Al*C8H4O4*HO
mdl
——
分子量
208.106
InChiKey
RYERTBWGRCFJTL-UHFFFAOYSA-K
BEILSTEIN
——
EINECS
——
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物化性质
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计算性质
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ADMET
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安全信息
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SDS
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制备方法与用途
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上下游信息
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文献信息
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表征谱图
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同类化合物
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相关功能分类
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相关结构分类
物化性质
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密度:0.30 g/cm3
计算性质
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辛醇/水分配系数(LogP):-2.14
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重原子数:14
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可旋转键数:0
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环数:1.0
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sp3杂化的碳原子比例:0.0
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拓扑面积:81.3
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氢给体数:1
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氢受体数:5
安全信息
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储存条件:室温
SDS
反应信息
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作为反应物:参考文献:名称:影响咪唑负载的Al-MOFs中质子电导率的结构性质关系†摘要:Al-MIL-53 [Al(OH)(1,4-BDC-(CH 3)x)](x = 0,1,2)和CAU-11([Al(OH )(SDBA)])由粉末X射线衍射数据确定(1,4-H 2 BDC =对苯二甲酸; H 2 SDBA = 4,4'-磺酰基二苯甲酸)。进行了阻抗光谱测量,以评估其在高达110°C的温度下在无水条件下的质子电导率。在Al-MIL-53-(CH 3)x _HIm(x = 0,1,2)中,骨架与客体分子之间形成氢键会导致质子传导率降低(x 0 = 1.7×10 -6,对于0、1和2个CH 3基,在110°C时x 1 = 1.9×10 -8和x 2 = 1.7×10 -9 S cm -1和E act分别为0.42、0.41和0.46 eV。。在110°C(E act = 0.19 eV)下,对于CAU-11_HIm具有3.0×10 -4 S cm -1的最高电导率进行了测量,未观察到主体-客体氢键相互作用。DOI:10.1039/c6dt03048c
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作为产物:描述:参考文献:名称:影响咪唑负载的Al-MOFs中质子电导率的结构性质关系†摘要:Al-MIL-53 [Al(OH)(1,4-BDC-(CH 3)x)](x = 0,1,2)和CAU-11([Al(OH )(SDBA)])由粉末X射线衍射数据确定(1,4-H 2 BDC =对苯二甲酸; H 2 SDBA = 4,4'-磺酰基二苯甲酸)。进行了阻抗光谱测量,以评估其在高达110°C的温度下在无水条件下的质子电导率。在Al-MIL-53-(CH 3)x _HIm(x = 0,1,2)中,骨架与客体分子之间形成氢键会导致质子传导率降低(x 0 = 1.7×10 -6,对于0、1和2个CH 3基,在110°C时x 1 = 1.9×10 -8和x 2 = 1.7×10 -9 S cm -1和E act分别为0.42、0.41和0.46 eV。。在110°C(E act = 0.19 eV)下,对于CAU-11_HIm具有3.0×10 -4 S cm -1的最高电导率进行了测量,未观察到主体-客体氢键相互作用。DOI:10.1039/c6dt03048c
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作为试剂:描述:参考文献:名称:金属有机骨架催化的醇的室温甲硅烷基化摘要:商业化的Al(OH)(BDC)(BDC:1,4-苯二甲酸)金属有机骨架(Basolite A100)是一种适合的非均相催化剂,用于在室温下甲苯中六甲基二硅氮烷对苄基和脂族醇进行甲硅烷基化。粉末XRD证明Al(OH)(BDC)在反应条件下是稳定的,可以在活性降低最小的情况下重复使用。DOI:10.1039/c7cy00834a
文献信息
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Fast multipoint immobilization of lipase through chiral <scp>l</scp>-proline on a MOF as a chiral bioreactor作者:Stephen Lirio、Yung-Han Shih、Pamela Berilyn So、Li-Hao Liu、Yun-Ting Yen、Shuhei Furukawa、Wan-Ling Liu、Hsi-Ya Huang、Chia-Her LinDOI:10.1039/d0dt04081a日期:——L-proline (Pro), and the enzyme, porcine pancreas lipase (PPL), immobilized on a microporous metal–organic framework (PPL-Pro@MOF). The multipoint immobilization of PPL onto the MOF is made possible with the aid of Pro, which also provided a chiral environment for enhanced enantioselectivity. The application of the microporous MOF is pivotal in maintaining the catalytic activity of PPL, wherein it prevented
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Stability of metal–organic frameworks under gamma irradiation作者:C. Volkringer、C. Falaise、P. Devaux、R. Giovine、V. Stevenson、F. Pourpoint、O. Lafon、M. Osmond、C. Jeanjacques、B. Marcillaud、J. C. Sabroux、T. LoiseauDOI:10.1039/c6cc06878b日期:——
We report the study of the resistance of archetypal MOFs (MILs, HKUST-1, UiO-66, and ZIF-8) under gamma irradiation.
我们报告了在γ射线照射下原型MOFs(MILs、HKUST-1、UiO-66和ZIF-8)的抗性研究。 -
Syntheses of Exceptionally Stable Aluminum(III) Metal-Organic Frameworks: How to Grow High-Quality, Large, Single Crystals作者:Yuanyuan Guo、Jun Zhang、Long-Zhang Dong、Yan Xu、Wei Han、Min Fang、Hong-Ke Liu、Yong Wu、Ya-Qian LanDOI:10.1002/chem.201703682日期:2017.11.2Structure determination on the cheap! Two visible-light-absorbing, aluminum carboxylate metal–organic frameworks (MOFs; AlTCS-1 and -2) based on tetrahedral-shaped tetrakis(4-oxycarbonylphenyl)silane ligands were synthesized and fully characterized, including their water-splitting photocatalytic properties. The successful syntheses of large single crystals of AlTCS-1, AlTCS-2, and MIL-53(Al) demonstrate
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Thermally Stable Metal-Organic Framework-Templated Synthesis of Hierarchically Porous Metal Sulfides: Enhanced Photocatalytic Hydrogen Production作者:Juan-Ding Xiao、Hai-Long JiangDOI:10.1002/smll.201700632日期:2017.7accessible active sites. Thermally stable metal‐organic frameworks (MOFs) as hard templates are successfully utilized to afford porous metal oxides and subsequently metal sulfides by a nanocasting method. The resultant metal oxides/sulfides show considerable Brunauer–Emmett–Teller (BET) surface areas, by partially inheriting the pore character of MOF templates. Preliminary investigation on the obtained
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METAL-ORGANIC FRAMEWORKS申请人:The University of Nottingham公开号:US20150175518A1公开(公告)日:2015-06-25The present invention relates to metal-organic frameworks and, in particular, a continuous flow process for synthesising a metal-organic framework comprising the steps of: providing a ligand and a metal salt which are suitable for forming a metal-organic framework, mixing the ligand and metal salt with a solvent to form a mixture, and providing the mixture at a temperature sufficient to cause the ligand and the metal salt to react to form a metal-organic framework. The invention also relates to a method for the treatment of a metal-organic framework to extract unreacted ligand from the metal organic framework, a method for synthesising a metal-organic framework using recycled unreacted ligand, and uses for metal-organic frameworks.
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