以PS-b-P2VP为模板剂诱导调控聚苯胺形貌、尺寸及电化学性能

采用可逆加成-断裂链转移自由基聚合（RAFT）法合成了具有pH响应性的两亲嵌段共聚物聚苯乙烯-b-聚（2-乙烯基吡啶）（PS₁₀₁-b-P2VP₇₀），并以其胶束为"模板"，通过氧化聚合制备聚苯胺（PANI）.通过调节PS₁₀₁-b-P2VP₇₀胶束溶液的pH值，探究PANI颗粒形貌的可控调节及颗粒尺寸与PANI电化学性能之间的关系.利用凝胶渗透色谱（SEC）和核磁共振氢谱（¹H NMR）确定了PS₁₀₁-b-P2VP₇₀的分子量分布及结构；利用傅里叶变换红外光谱（FTIR）、透射电子显微镜（TEM）、粒度测试、循环伏安（CV）、计时电位（Chronopotentio-metry）及交流阻抗谱（EIS）对PANI结构、形貌和电化学性能进行了表征.结果表明"模板"法合成的PANI形貌尺寸得到了很好的控制，在pH ≤ 4时其尺寸随pH值的增加而减小；当pH=5时，模板剂中P2VP段疏水性的明显增大导致其胶束颗粒聚集为尺寸较大的聚集体，并使其诱导的PANI颗粒平均粒径显著增大；当pH=4时PANI颗粒在溶液中的平均粒径为141 nm，呈"串状"形貌且分散性最好.PANI具有快速充放电能力和良好的赝电容特性，随颗粒尺寸减小样品电化学性能增强.pH=4时样品电化学活性最好，循环伏安曲线面积最大，放电比容量最高，在电流密度为1 A/g时，其放电比容量可达1411.88 F/g，且该样品阻抗值最小.     

不同形貌氧化镍纳米材料的合成及其电化学性能

以水-乙二醇为溶剂,以聚乙烯吡咯烷酮(PVP)为表面活性剂,采用溶剂热法合成了NiO纳米片,NiO纳米薄片通过自组装形成花状结构。 改变反应温度和溶剂,制备了NiO纳米立方体颗粒和NiO纳米球形颗粒。 用合成的NiO纳米材料制备工作电极,在6 mol/L的KOH溶液中利用三电极体系进行了电化学性能测试。 在电化学性能测试中进行了循环伏安测试、恒电流充放电测试和电化学阻抗谱(EIS)测试。 结果表明,NiO纳米片的比电容最高(在电流密度为0.5 A/g时比电容值为402 F/g),倍率性能最佳(0.5 A/g增加至4 A/g时有80.1%的电容保持率)。 在电流密度为4 A/g时对NiO纳米片进行1000次恒流充放电循环测试,比电容损失了9.7%。     

α-MnO2微球的制备及其电化学电容性质

以Ag片作催化剂在室温下制备了具有较高比表面积(177m2/g)的电化学电容器材料MnO2。XRD测试和SEM分析表明,所制备的MnO2为纳米纤维组成的仙人球状微球结构的α-MnO2。交流阻抗、循环伏安、恒流充放电和循环寿命等电化学测试均表明,所合成的α-MnO2微球在1mol/LNa2SO4水溶液中具有良好的电化学电容性能,单电极比电容可达187.1F/g,经1000次循环后电极容量仍保持在90%以上。     

聚吡咯/海藻酸钠纳米球的制备及其应用于高性能超级电容器

用海藻酸钠作为结构导向剂,通过原位氧化聚合吡咯法制备了聚吡咯/海藻酸钠(PPy/SA)纳米球.聚吡咯/海藻酸钠纳米球的形貌和结构通过扫描电镜(SEM)、X射线衍射(XRD)和傅里叶变换红外(FTIR)光谱进行表征.材料的电化学性能通过循环伏安法和恒电流充放电方法进行测试.电化学测试表明,聚吡咯/海藻酸钠纳米球在1 mol L-1KCl电解液中,电流密度为1 A g-1时其比电容高达347 F g-1.与纯聚吡咯相比较,聚吡咯/海藻酸钠纳米球具有更优异的循环稳定性能.     

溶液pH值对聚邻甲苯胺电化学性质的影响

本文报道了溶液pH值对聚邻甲本胺电化学性质的影响。研究结果表明,电化学合成的聚邻甲苯胺的循环伏安曲线、氧化电位、膜的颜色、充放电容量、紫外可见光谱以及氧化还原活性都受到溶液pH的影响。在低pH值的溶液中,随着扫描电位的变化,聚邻甲苯胺膜的颜色可逆地变化,而在pH4.13的溶液中进行扫描时,膜的颜色不变化,电化学活性也消失。     

聚苯乙烯-b-聚丙烯酸模板剂成核段长度对聚苯胺尺寸及性能的影响

以两亲性嵌段共聚物为模板是构筑导电聚合物纳米结构并对其形貌尺寸进行调控的有效方法之一。 嵌段共聚物成核段长度的变化对其胶束化行为有显著影响,进而也会改变受限于其胶束形貌的导电聚合物的形貌尺寸。 形貌尺寸的变化必然导致导电聚合物电化学性能变化。 本文欲通过嵌段共聚物模板诱导实现对聚苯胺(PANI)形貌尺寸的调控并使其电化学性能得到优化,采用可逆加成-断裂链转移自由基聚合(RAFT)法成功合成了嵌段共聚物聚苯乙烯-b-聚丙烯酸PS_x-b-PAA₇₀(x=38、64、101)并以其胶束为“模板”制备了窄相对分子质量分布的PANI。 在成核段(PS)长度较短时,模板诱导形成的棒状PANI颗粒,直径为100~200 nm。当 x=101时PANI呈现空间网状结构,其放电比容量高于其它样品,在电流密度为1 A/g时,其放电比容量可达386.71 F/g。     

一维亚微米多钼酸盐形貌可控合成及氧的电催化还原研究

通过调节反应pH值和反应物种实现了一维亚微米多钼酸盐的控制合成,以钼酸铵和十二烷基苯磺酸钠为原料,在pH=6时制备出亚微米线,在pH=2时制备出亚微米棒,而以钼酸铵和氯化钠为原料,在pH=6时制备出纳米带.在pH=6时,纳米材料在长胶束内生长成亚微米线,而pH值降低至2时,过多的H＋不仅会形成大量的Mo3O102-,还会使得胶束变短,因此使得亚微米材料变短,成为亚微米棒.在没有模板剂十二烷基苯磺酸钠时,多钼酸铵就会长成结构更为稳定的纳米带.循环伏安测试结果表明在有机溶剂中,多钼酸盐的亚微米棒对氧电催化还原具有优异活性.研究表明,由于有机醇能与电解质溶液中的H＋反应,因此有机醇能显著促进一维多钼酸盐亚微米材料的氧的电催化活性.     

聚吡咯纳米球负载金纳米粒子的制备及其性能研究

在水溶液中以表面活性剂F127形成的胶束为模板制备聚吡咯纳米球，考察了温度、吡咯浓度、pH等因素对聚吡咯纳米球形貌的影响，提出F127体系中聚吡咯纳米球的形成机理。利用聚吡咯与氯金酸之间的氧化还原活性，在聚吡咯纳米球表面成功负载金纳米粒子，研究温度和吡咯浓度对聚吡咯/金复合材料形貌的影响，运用透射电子显微镜、傅里叶红外光谱、X射线衍射、拉曼光谱、循环伏安等对其形貌、结构、性能进行研究。结果表明，所制得的负载金纳米粒子的聚吡咯复合材料具有明显的拉曼增强效应，可用于分析复合材料中聚合物的分子结构；此外该复合材料在酸性条件下具有较好的电化学稳定性，可应用于修饰电极。     

聚吡咯-分级多孔碳纳米复合材料的制备及其电化学性能

以空心介孔硅球为模板,酚醛树脂乙醇溶液为碳源制得了分级多孔碳(HPCs).以酸化处理后的HPCs为载体、对甲苯磺酸(p-TSA)为掺杂剂、三氯化铁(FeCl3)为氧化剂,通过原位化学氧化聚合法制备了聚吡咯-分级多孔碳(PPy-HPCs)纳米复合材料.采用场发射扫描电镜(FESEM)、透射电镜(TEM)、傅里叶红外光谱仪(FT IR)、恒流充放电、循环伏安以及交流阻抗等测试技术对复合材料进行了形貌结构和电化学性能的研究.结果表明:聚吡咯成功地包覆在HPCs的表面,随着聚吡咯含量的增加,复合材料的比容量呈现先增大后减小的趋势.当聚吡咯的质量含量为34.9％时,复合材料在电流密度为0.1 A/g时达到最大比容量(316 F/g),在1 A/g的电流密度下循环1 000次后,比容量保持率为95.8％,聚吡咯的引入有效地提高了HPCs电极材料的电化学性能.     

聚多巴胺仿生纳米微球用于构建电化学免疫传感器

利用多巴胺仿生聚合方法制备了具有良好生物相容性的聚多巴胺纳米微球,并在其表面原位合成银纳米颗粒.复合物微球具有良好的催化还原H2O2的性能以及良好的结合生物分子的能力.将制备的复合物微球作为标记物,将氨基化石墨烯作为基底材料,构建了检测人免疫球蛋白(Ig G)的夹心型电化学免疫传感器.运用循环伏安法和计时电流法对构建的电化学免疫传感器进行了性能分析,并对实验条件进行了考察优化.在最佳的实验条件下,免疫传感器的线性范围是0.1 pg/m L~15 ng/m L,检出限为0.025 pg/m L.     

Preparation of polybenzidine submicrorods with controllable morphology using poly (ethylene oxide)-b-polystyrene as a template and its electrochemical properties

Polybenzidine (PBz) particles were formed by the chemical polymerization in micelles of block copolymer by using Poly (ethylene oxide)-b-Polystyrene [PEO₁₁₃-b-PS_x (x = 50, 58 and 100)] as templates. The samples were characterized by IR, UV-vis absorption spectroscopy, transmission electron microscopy, cyclic voltammetry, constant current charge-discharge and electrochemical impedance to determine their morphologies and electrochemical properties. The results show that the prepared PBz is submicron to nanometer rod-like conducting particles with uniform sizes. Removing the templates did not affect the morphology but slightly reduced the size of the PBz particles. The size and morphology of PBz particles can be tuned by adjusting the amount of monomer. The PBz submicrorods showed 412 F·g^?1 specific capacitance in 0.3 mol·L^?1HClO₄ at the current density of 1 A·g^?1, indicating its better electrochemical activity. The specific capacitance of the PBz particles reduced less than 10% after 500 charge-discharge cycles at the current density of 3 A·g^?1, indicating its good cycling stability.     

有机模板剂辅助喷雾干燥法制备LiFePO4/C正极材料及其电化学性能研究

分别使用3种有机物辅助模板剂,由喷雾干燥制得LiFePO4/C复合正极材料,X射线衍射（XRD）、扫描电镜（SEM）表征、考察了不同模板剂对样品的形貌和性能的影响.交流阻抗（EIS）、循环伏安（CV）和恒电流充放电测试电极性能.结果表明：样品的形貌和结构因添加不同的有机模板剂而改变.无模板剂时,得到的样品是光滑实心球;...     

Template Effect of Hydrophobically Associating Polymers on theConstruction of Cuprous Oxide Micro Structure

To determine the template effect of hydrophobically associating copolymers(HACPs) on the morphology of nano/micro structures, six HACPs were synthesized and used as templates to biomimetically synthesize cuprous oxide(Cu₂O), an important semiconductor. This experiment showed a clear relationship between the associating state of the HACP molecules and the morphology of the Cu₂O particles. Cu₂O hollow spheres were preferentially prepared when the HACP molecules were in an intramolecular associating state. Furthermore, a Cu₂O hexapod was easily obtained when the HACP molecules were in an intermolecular associating state. The morphologies of the Cu₂O crystals prepared in the presence of the HACPs also confirmed this result.     

采用新颖喷墨打印技术制备的薄膜LiCoO2电极及其电化学性能

采用喷墨打印技术制备了LiCoO2薄膜电极. 用X射线衍射、扫描电镜(SEM)、循环伏安和恒电流充放电试验对薄膜电极进行结构表征和电化学性能测试. SEM结果表明, 所制备的薄膜电极表面粒子分布均匀, 厚度约为1.27 μm. 经过轻微热处理(450 ℃, 30 min)的薄膜LiCoO2电极呈现出稳定的充放电循环性能. 当以20 μA/cm2进行充放电时, 第50次循环容量保持率约为首次放电容量(81 mA·h/g)的87%, 10次循环后的充放电过程的充放电效率均接近100％.     

Effects of monomer concentration on the structure and properties of polybenzidine micro rods

Polybenzidine was synthesized by interfacial polymerization under various monomer concentrations. Effects of monomer concentration on morphology, structure, and properties of polybenzidine were studied by techniques of Fourier Transform Infrared Spectroscopy, Ultraviolet Visible Absorption Spectroscopy, Scanning Electron Microscopy, Transmission Electron Microscopy, X-ray Diffraction, and Cyclic Voltammetry. The results showed that the synthesized polybenzidine with monomer concentration less than 0.15 mol/L were micro rod-like and the surface of the micro rods was smooth and uniform, However, the micro rod-like polybenzidine cannot be obtained under high monomer concentration because of the explosive polymerization. The results of structural analysis indicated that the monomer concentration should not be very high to obtain the polybenzidine with the optimal degree of conjugation and order arrangement of molecular chain. The polybenzidine synthesized in different monomer concentrations showed different electrochemical activities and the sample with the best electrochemical activity was obtained at monomer concentration of 0.02 mol/L.     

Hierarchically structured porous cadmium selenide polycrystals using polystyrene bilayer templates

In this study, a novel approach is demonstrated to fabricate hierarchically structured cadmium selenide (CdSe) layers with size-tunable nano/microporous morphologies achieved using polystyrene (PS) bilayered templates (top layer: colloidal template) via potentiostatic electrochemical deposition. The PS bilayer template is made in two steps. First, various PS patterns (stripes, ellipsoids, and circles) are prepared as the bottom layers through imprint lithography. In a second step, a top template is deposited that consists of a self-assembled layer of colloidal 2D packed PS particles. Electrochemical growth of CdSe crystals in the voids and selective removal of the PS bilayered templates give rise to hierarchically patterned 2D hexagonal porous CdSe structures. This simple and facile technique provides various unconventional porous CdSe films, arising from the effect of the PS bottom templates.     

Advances in Template Prepared Nano‐Oxides and their Applications: Polluted Water Treatment,Energy, Sensing and Biomedical Drug Delivery

The nano‐oxide materials with special structures prepared by template methods have a good dispersion, regular structures and high specific surface areas. Therefore, in some areas, improved properties are observed than conventional bulk oxide materials. For example, in the treatment of dye wastewater, the treatment efficiency of adsorbents and catalytic materials prepared by template method was about 30 % or even higher than that of conventional samples. This review mainly focuses on the progress of inorganic, organic and biological templates in the preparation of micro‐ and nano‐ oxide materials with special morphologies, and the roles of the prepared materials as adsorbents and photocatalysts in dye wastewater treatment. The characteristics and advantages of inorganic, organic and biological template are also summarized. In addition, the applications of template method prepared oxides in the field of sensors, drug carrier, energy materials and other fields are briefly discussed with detailed examples.     

球磨方式对锂离子正极材料LiFePO4性能的影响

采用高温固相合成法制备橄榄石型的LiFePO₄正极材料，在合成过程中分别采用湿法球磨和干法球磨两种球磨方式。用X-射线衍射，扫描电镜，激光粒度测试等对合成材料进行表征，并对以LiFePO₄为正极的电池进行电化学性能测试。结果表明，相对于干法球磨，湿法球磨制备的LiFePO₄样品具有更好的电化学性能，0.2C放电的首次放电比容量为134.9 mAh·g^-1，并有优良的大电流放电性能及循环性能。这主要是因为采用湿法球磨制备的LiFePO₄材料物相较纯、粒径均匀，与导电添加剂的接触更加紧密，从而提高了LiFePO₄材料电化学性能。