钼酸根阴离子在增强聚苯胺包覆的镍钴层状氢氧化物的电容和析氧行为中的关键作用

理论容量大且过电位低的层状氢氧化物(LDHs)是极有前景的超级电容电池和析氧反应的电极材料;然而,体相LDHs的低电导率和活性位点不足增加了电极的内阻,降低了电极容量和产氧效率.本文采用两步法制备了聚苯胺包覆的MoO42?插层的镍钴层状双金属氢氧化物复合电极(M-LDH@PANI).随着LDH中MoO42?含量的增加,针状的LDH微球逐渐演化为具有较高比表面积的片状M-LDH微球,这为整个电极提供了更多的电化学位点.此外,非晶态的聚苯胺包覆提高了复合电极的电导率.在引入适量MoO42?插层离子时,M-LDH@PANI表现出显著强化的储能和催化性能.所获得的M-LDH@PANI-0.5在析氧反应中表现出优越的电催化活性(10 mA cm?2时的过电位为266 mV),作为超级电容电池电极则具有864.8 C g?1的高容量.采用M-LDH@PANI-0.5作为正极及以活性炭作为负极组装的超级电容电池在功率密度为8,300.0 W kg?1时能量密度为44.6 Wh kg?1,且具有优异的循环稳定性(10000次循环后保留83.9％的初始容量).本文为LDH基材料的阴离子插层改性增强材料性能的机理提供了一个非传统的解释.在上述研究基础上,采用射线衍射(XRD)、X射线光电子能谱(XPS)、扫描电子显微镜(SEM)、高分辨透射电镜(HRTEM)和比表面积测试(BET)等手段对样品进行了深入表征.XRD结果表明,MoO42?插层的LDH材料的层间晶面(003)的峰随着MoO42?含量的增加而逐渐消失,这是由于晶面间距越大越容易受到晶粒细化的影响,间距大的晶格更容易受到破坏,导致晶格的展宽和弱化,从而间接证明MoO42?的成功插层.SEM、HRTEM和BET测试结果表明,MoO42?的含量对材料的形貌和比表面积具有重大影响.利用XPS对样品的价态进行了研究,发现随着MoO42?含量的增加,Co和Ni的价态没有明显变化.电化学测试结果表明,电极的储能和催化性能随MoO42?含量的增加而先增加后减小.利用理论计算分析了MoO42?在LDH中的插层行为,发现少量的MoO42?有利于扩大LDH的层间间距,而过量的MoO42?则会与LDH的H原子结合,从而与电解液中的OH?竞争,导致复合电极的电化学性能下降.此外,MoO42?插层的片状微球能有效调节材料的去质子化能,大大加速电极表面的氧化还原反应.因此,MoO42?插层能够显著强化LDH基材料的超级电容电池电极和OER催化剂电化学性能.     

钼酸根阴离子在增强聚苯胺包覆的镍钴层状氢氧化物的电容和析氧行为中的关键作用（英文）

理论容量大且过电位低的层状氢氧化物(LDHs)是极有前景的超级电容电池和析氧反应的电极材料;然而,体相LDHs的低电导率和活性位点不足增加了电极的内阻,降低了电极容量和产氧效率.本文采用两步法制备了聚苯胺包覆的MoO₄^2-插层的镍钴层状双金属氢氧化物复合电极(M-LDH@PANI).随着LDH中MoO₄^2-含量的增加,针状的LDH微球逐渐演化为具有较高比表面积的片状M-LDH微球,这为整个电极提供了更多的电化学位点.此外,非晶态的聚苯胺包覆提高了复合电极的电导率.在引入适量MoO₄^2-插层离子时, M-LDH@PANI表现出显著强化的储能和催化性能.所获得的M-LDH@PANI-0.5在析氧反应中表现出优越的电催化活性(10 mA cm^-2时的过电位为266 mV),作为超级电容电池电极则具有864.8 C g^-1的高容量.采用M-LDH@PANI-0.5作为正极及以活性炭作为负极组装的超级电容电池在功率密度为8...     

长链烷胺及手性钛的螯合物Ti[(OC2H4)3N][OCH(CH3)2]在层状V2O5中的插层行为

用一种简便快速方法合成了一系列长链有机胺插层V₂O₅化合物. 用粉末X射线衍射(XRD)、红外光谱(FT-IR)、漫反射紫外-可见光谱(DR UV-VIS)等手段对插层产品的结构进行了表征. 除了正十六胺插层V₂O₅产品外, 其它长链烷胺插层V₂O₅产品的层间距d₀₀₁与长链烷胺碳数n之间具有良好的线性关系: d₀₀₁＝0.160n_C＋0.731 nm. 正十六胺与V₂O₅反应后生成两个插层相, 一个相的层间距d₀₀₁为4.01 nm, 另一相的d₀₀₁为3.20 nm. 此外, 研究了手性钛的螯合物Ti[(OC₂H₄)₃N][OCH(CH₃)₂] (记为TEAIP)在V₂O₅层间的插层行为, 得到相应的插层产品.     

长链烷胺及手性钛的螯合物Ti[(OC2H4)3N][OCH(CH3)2]在层状V2O5中的插层行为

用一种简便快速方法合成了一系列长链有机胺插层V₂O₅化合物. 用粉末X射线衍射(XRD)、红外光谱(FT-IR)、漫反射紫外-可见光谱(DR UV-VIS)等手段对插层产品的结构进行了表征. 除了正十六胺插层V₂O₅产品外, 其它长链烷胺插层V₂O₅产品的层间距d₀₀₁与长链烷胺碳数n之间具有良好的线性关系: d₀₀₁＝0.160n_C＋0.731 nm. 正十六胺与V₂O₅反应后生成两个插层相, 一个相的层间距d₀₀₁为4.01 nm, 另一相的d₀₀₁为3.20 nm. 此外, 研究了手性钛的螯合物Ti[(OC₂H₄)₃N][OCH(CH₃)₂] (记为TEAIP)在V₂O₅层间的插层行为, 得到相应的插层产品.     

Synthesis of Ni／Mg／Al Layered Double Hydroxides and Their Use as Catalyst Precursors in the Preparation of Carbon Nanotubes

Ni/Mg/Al layered double hydroxides(LDHs) with different n(Ni) : n(Mg) : n(Al) ratio values were prepared via a coprecipitation reaction. Then Ni/Mg/Al mixed oxides were obtained by calcination of these LDHs precursors. Carbon nanotubes were produced in the catalytic decomposition of propane over the Ni/Mg/Al mixed oxide catalysts. The quality of as-made nanotubes was investigated by SEM and TEM. The nanotubes were multiwall with a high length-diameter ratio and appeared to be flexible. The catalytic activities of these mixed oxides increased with increasing the Ni content. The Ni/Mg/Al mixed oxide with the highest Ni content [ n( Ni)/n( Mg)/n(Al) = 1/1/1 ] showed the highest activity and the carbon nanotubes grown on its surface had the best quality.     

Variation of benzyl anions in MgAl-layered double hydroxides: Fire and thermal properties in PMMA

Magnesium aluminum layered double hydroxides (MgAl-LDHs) intercalated with a range of benzyl anions were prepared using the coprecipitation method. The benzyl anions differ in functionality (i.e. carboxylate, sulfonate, and phosphonate) and presence or absence of an amino substituent. Various methods for preparing LDHs (i.e. ion exchange, coprecipitation and rehydration of the calcined LDH methods) have been compared with the MgAl-benzene phosphonate and their effect on fire and thermal properties was studied. After characterization, the MgAl-LDHs were melt-blended with poly(methyl methacrylate) (PMMA) at loadings of 3 and 10% by weight to prepare composites. Characterization of the LDHs and the PMMA composites was performed using FTIR, XRD, TGA, transmission electron microscopy (TEM) and cone calorimetry. FTIR and XRD analyses confirmed the presence of the charge balancing benzyl anions in the galleries of the MgAl-LDHs. Improvements in fire and thermal properties of the PMMA composites were observed. The cone calorimeter revealed that the addition of 10% MgAl-LDHs reduces the peak heat release rate by more than 30%.     

Solubility and release of fenbufen intercalated in Mg, Al and Mg, Al, Fe layered double hydroxides (LDH): The effect of Eudragit S 100 covering

Following different preparation routes, fenbufen has been intercalated in the interlayer space of layered double hydroxides with Mg²⁺ and Al³⁺ or Mg²⁺, Al³⁺ and Fe³⁺ in the layers. Well crystallized samples were obtained in most of the cases (intercalation was not observed by reconstruction of the MgAlFe matrix), with layer heights ranging between 16.1 and 18.8 Å. The presence of the LDH increases the solubility of fenbufen, especially when used as a matrix. The dissolution rate of the drug decreases when the drug is intercalated, and is even lower in those systems containing iron; release takes place through ionic exchange with phosphate anions from the solution. Preparation of microspheres with Eudragit^® S 100 leads to solids with an homogeneous, smooth surface with efficient covering of the LDH surface, as drug release was not observed at pH lower than 7.