掺杂Mo6+对纳米TiO2薄膜亲水性的影响

用溶胶 凝胶法制备了一系列掺杂钼量不同的TiO₂纳米薄膜.用XRD,SEM和CAS(ContactAngleSystem)对TiO₂薄膜的结构和性能进行了表征.结果表明,Mo⁶⁺掺杂浓度对薄膜的热致亲水性和光致亲水性均有影响,当掺Mo⁶⁺质量分数为0.75%,热处理温度为400℃时,掺钼TiO₂薄膜在黑暗中放置72h后仍能表现超亲水性.     

钒离子掺杂对TiO2光催化剂薄膜催化活性的影响

采用溶胶凝胶工艺在普通玻璃表面制备了钒离子非均匀掺杂的TiO2薄膜,运用XRD研究了其光催化复合薄膜的表面特征.以光催化降解甲基橙溶液为模型反应,表征薄膜的光催化活性,结果表明,将钒离子富集在TiO2薄膜内部时,最佳掺杂浓度为1.0%(V/Ti原子百分比),最佳降解表观速率常数为7.44×10-3min-1,约是纯TiO2的2.3倍,有效地提高了TiO2半导体的光催化效率.通过XPS与电化学方法进行分析,说明将钒离子富集在TiO2薄膜内部十分有利于电子-空穴的分离,增强了光生电子与空穴的分离效率.     

锂磷氧氮(LiPON)薄膜电解质和全固态薄膜锂电池研究

采用电子束热蒸发Li₃PO₄与氮等离子体辅助相结合的方法制备了含氮磷酸锂(LiPON)电解质薄膜,已测得该非晶态电解质薄膜在温度为300K时的离子导电率为6.0×10^-7 S/cm,电子电导率低于10^-10 S/cm,电化学稳定窗口为5.0V.以脉冲激光沉积法(PLD)制备的非晶态Ag_0.5V₂O₅薄膜为阴极,真空热蒸发法制备的金属锂为阳极,LiPON薄膜为电解质,成功地制备了一个新的Li/LiPON/Ag_0.5V₂O₅全固态薄膜锂电池.该电池以14μA/cm²电流充/放电时,首次放电容量达到62 μAh·cm^-2·μm^-1,10次循环后容量衰减缓慢,衰减率约为0.2%,循环寿命达到550次以上.     

Creation of highly functional thin films using electrochemical nanotechnology

This overview describes the results of our recent study of the application of electrochemical nanotechnology to the fabrication of magnetic recording materials, interconnects in ultra-large-scale integrated (ULSI) devices, energy storage materials, and on-chip biosensors. It is important to note that electrochemical processes play significant roles in developing and fabrication such sophisticated materials and devices. In the field of magnetic recording, electrodeposition methods for preparing CoNiFe and CoFe soft magnetic thin films with a high saturation magnetic flux density were newly developed, and the significant issues for obtaining those films are highlighted. In the area of ULSI interconnects, we developed a technique using a self-assembled monolayer (SAM) for direct bonding of the interconnect layer to SiO2, and proposed a novel electroless deposition method for fabricating a diffusion barrier layer. In the field of batteries, electrodeposited SnNi alloy was proposed as a future anode material for Li batteries, and electrochemical MEMS processes were shown to be useful for fabricating micro-sized direct methanol fuel cells (DMFCs) as portable batteries for electronics applications. In the area of chemical sensors, we developed a new process for fabricating field effect transistors (FETs) modified with SAMs for on-chip biosensing applications.     

Stripping Chronopotentiometry with Dry‐Preservable Supporting Electrolyte

The determination of some toxic metals by stripping chronopotentiometry with a supporting solution having an unconventional composition has been investigated with the aim of using such components in disposable measuring cells preservable in dry state and quite ready for use, only needing addition of a small volume of sample. The new supporting solution is prepared with a solid strong acid, p‐toluenesulfonic acid, in the place of the inorganic acids commonly used to improve the cation availability. The other components are, as usual, sodium chloride, which fixes the potential of the screen‐printed silver – silver chloride reference electrode, and mercury(II) chloride as the plating agent. This supporting solution has been tested in batch measurements with the mercury film glassy carbon electrode as well as with screen‐printed carbon‐ink electrodes, either with mercury film or bare. The physical shape of the mercury layer electrolytically deposited on screen‐printed carbon‐ink electrodes from a supporting solution containing 0.1 M p‐toluenesulfonic acid and 0.1 M sodium chloride has been investigated by scanning electron microscopy (SEM) and energy dispersive spectrometry (EDS) microanalysis. In chronopotentiometric stripping p‐toluenesulfonic acid performs as well as the usual inorganic strong acids, particularly in terms of sensitivity. At 0.1 mol dm^?3 it proved very suitable for the determination of toxic metals, in particular lead(II), at levels down to a few μg dm^?3. The overall results appear promising and can open new avenues for preparing disposable cells for on‐field stripping chronopotentiometric determination of toxic metals.     

Modification of Glassy Carbon Electrodes with a Poly‐L‐Lysine/Glutaraldehyde Film

A film of poly‐L ‐lysine (PLL) adheres better to the surface of a glassy carbon electrode when the PLL is partially cross‐linked by means of glutaraldehyde. A film composition of 97.5% PLL/2.5% glutaraldehyde gives good adhesion and retains the anionic exchange capability of the PLL. The performance of the film was tested with hexacyanoferrate(III) using electrochemical and nonelectrochemical accumulation.     

Highly Sensitive Amperometric Glucose Biosensor Based on Glassy Carbon Electrode with Copper/Palladium Coating

A highly sensitive amperometric glucose biosensor based on immobilizing glucose oxidase in electropolymerized poly(o‐phenylenediamine) film on glassy carbon electrode coated sequentially with copper and palladium layers has been developed. The steady‐state amperometric response to glucose was determined by means of the oxidation of hydrogen peroxide generated by the enzymatic reaction at a potential of either +0.70 or +0.40 V (vs. Ag|AgCl reference). The deposited copper/palladium layer showed great enhancement in the performance of the enzyme electrode, possibly due to its better electrocatalytic activity for hydrogen peroxide oxidation and large surface area. Effects of the relative loading of palladium, enzyme and polymer on the electrode performance were examined in detail. Sensitivity and detection limit for glucose determinations at +0.70 V were about 7.3 μA/mM and 0.1 μM, respectively. A wide linear range up to 6.0 mM glucose could be achieved. Electrode performance was superior to similar works reported in the literature. The response time was less than 2 s and its lifetime was longer than three months. The permeable polyphenylenediamine film also offered good anti‐interference ability to ascorbic acid, uric acid and acetaminophen, especially when a detection potential of +0.40 V was employed.     

乙二胺铜－铁氰复合修饰电极薄膜的电沉积和结构表征及电化学性质

乙二胺铜－铁氰复合修饰电极薄膜的电沉积和结构表征及电化学性质陈昌国，李海梅，黄宗卿（重庆大学化工学院重庆６３００４４）关键词：铜、乙二胺，铁氰，修饰电极，光谱普鲁士兰（ＰＢ）修饰电极因其独特的电致变色现象而倍受关注。在１９７８年以来的十余年间里已相继...     

Controlling aggregate formation in conjugated polymers by spin‐coating below the critical temperature of the disorder–order transition

Aggregates – that is short‐ranged ordered moieties in the solid‐state of π‐conjugated polymers – play an important role in the photophysics and performance of various optoelectronic devices. We have previously shown that many polymers change from a disordered to a more ordered conformation when cooling a solution below a characteristic critical temperature . Using in situ time‐resolved absorption spectroscopy on the prototypical semiconducting polymers P3HT, PFO, PCPDTBT, and PCE11 (PffBT4T‐2OD), we show that spin‐coating at a temperature below can enhance the formation of aggregates with strong intra‐chain coupling. An analysis of their time‐resolved spectra indicates that the formation of nuclei in the initial stages of film formation for substrates held below seems responsible for this. We observe that the growth rate of the aggregates is thermally activated with an energy of 310 meV, which is much more than that of the solvent viscosity (100 meV). From this we conclude that the rate controlling step is the planarization of a chain that is associated with its attachment to a nucleation center. The success of our approach for the rather dynamic deposition method of spin‐coating holds promise for other solution‐based deposition methods. © 2017 Wiley Periodicals, Inc. J. Polym. Sci., Part B: Polym. Phys. 2018 , 56, 532–542     

Determination of Hydrogen Peroxide by Electrochemiluminescence Using a Chitosan–graphene Composite Film Doped Cadmium-Tellurium Quantum Dot Modified Glassy Carbon Electrode

Here is reported the novel determination of hydrogen peroxide by electrochemiluminescence using a chitosan–graphene composite film doped cadmium-tellurium quantum dot modified glassy carbon electrode. The cadmium-tellurium quantum dots were studied by absorption and fluorescence spectroscopy. Scanning electron microscopy and electrochemical impedance spectroscopy were used to characterize the structure morphology of the composite matrix. The electrochemiluminescence emission was linear with the concentration of hydrogen peroxide in the range of 3.5?×?10^?7 to 1.1?×?10^?5?M with a determination limit of 2.1?×?10^?7?M. Furthermore, the modified electrode showed excellent reproducibility and stability.