纳米氧化钴－氧化钌复合型超级电容器的研究

A novel type of composite electrode based on sheet like cobalt oxide particles has been used in supercapacitors. Cobalt oxide cathodically deposited from Co（NO3）2 solution with carbon nanotubes as matrix exhibited large pseudo-capacitance of 322 F·g^-1 in 6 mol·L^-1 KOH. A sol-gel process for the preparation of ultrafine RuO2 particles was developed to design electrodes with large surface area. The composite electrodes were developed by the deposition of RuO： on the surface of carbon nanotubes. A specific capacitance of 785 F·g^-1 can be achieved with the 20% carbon nanotubes loaded. To characterize the metal oxide nanocomposite electrode, a cyclic voltammetry and AC impedance test are executed. This study also reports a hybrid capacitor, which consists of cobalt oxide composite as a cathode and ruthenium oxide composite as an anode. The electrochemical performance of the hybrid capacitor is characterized by a dc charge/discharge test and cyclic voltammograms. The hybrid capacitor shows capacitor behavior with an extended operating voltage of 1.4 V. The maximum energy density and specific power density of the cell reach the value of 23.7 and 8.1 kW·g^-1 respectively. The hybrid capacitor exhibits high-energy density and stable power characteristics.     

聚苯胺/活性碳复合型超电容器的电化学特性

电化学电容器作为一种新型储能器件具有广泛的应用.采用(NH₄)₂S₂O₈化学氧化聚合苯胺法制备了聚苯胺电极材料，采用化学物理二次催化活化法制备了高比表面积活性碳材料.并用循环伏安、恒流充放电以及交流阻抗等方法对上述电极材料的电化学特性进行了研究.实验结果表明,所制备的聚苯胺电极材料具有高于420 F•g^－1的法拉第赝电容和良好的电化学特性，所制备的活性碳电极材料则具有160 F•g^－1的双电层电容量.分别采用聚苯胺作为正极，活性碳作为负极，38％硫酸作为电解液制备了复合型电化学电容器.复合型电容器工作电压达到1.4 V, 电容器单体比电容达到57 F•g^－1，最大比能量和最大真实比功率分别达到15.5 W•h•kg^－1和2.4 W•g^－1, 峰值比功率达到20.4 W•g^－1,电容器循环工作寿命超过500次. 与活性碳双电层电容器相比，复合型电容器还具有较低的自放电率.     

超细氢氧化亚镍的溶胶凝胶法制备及其准电容特性

以聚乙二醇为抑制剂,采用溶胶凝胶法制备了粒径小于200 nm且具有链珠状特殊形态的超细氢氧化亚镍电极材料.伏安特性测试和电化学阻抗测试表明在氢氧化亚镍中掺加适量碳纳米管可以显著改善电极材料的容量特性和阻抗特性,其中碳纳米管质量分数为20％的复合电极其比电容量可以达到320 F&;#8226;g^－1.采用复合电极作为正极,活性炭电极作为负极组成的复合型电化学电容器最大工作电压可以达到1.6 V,具有良好的容量特性和大电流放电特性.恒流充放电测试证明复合型电化学电容器具有高能量密度及高功率放电特性,电容器的峰值功率密度为8.6 W&;#8226;g^－1.当以0.88 W&;#8226;g^－1功率放电时,电容器能量密度可达20.11 W&;#8226;h&;#8226;kg^－1, 当采用3.46 W&;#8226;g^－1的高功率进行放电时,复合型电容器的能量密度仍然能够达到11.11 W&;#8226;h&;#8226;kg^－1.     

一种阿贝-波特实验再现的方法

用直径为0.24mm的不锈钢金属丝细丝网格制作细丝网格教学道具,给出了具体制作方法。利用当前先进的微钻技术在0.2mm厚的薄铜片上精确加工出直径为0.1、0.2、0.3和0.5mm的四个小孔制作出低通滤波器,比较了不同大小孔径小孔的低通滤波效果。利用大头针的针尖制作出高通滤波器,并购买狭缝滤波器,从而将阿贝-波特实验成功再现。     

Dirichlet空间上Toeplitz算子与Berezin型变换相关的一些性质

本文研究了单位圆盘D 的Dirichlet 空间上Toeplitz 算子和小Hankel 算子. 利用Berezin 型变换讨论了Toeplitz 算子的不变子空间问题, 具有Berezin 型符号的Toeplitz 算子的渐进可乘性以及Toeplitz 算子的Riccati 方程的可解性. 应用Berezin 变换得到了Toeplitz 算子和小Hankel 算子可逆的充分条件. 此外, 还利用Hankel 算子和Berezin 变换刻画了算子2T_uv-T_uT_v-T_vT_u 的紧性, 其中函数u,v ∈ L^2,1.     

氧化锰三维微型超级电容器电极制备及电化学特性

为增强电容器的电荷贮存能力,用MEMS技术在玻璃上制备高深宽比三维微电极结构,以增大电极的表面积,用阳极恒电压沉积在微电极表面沉积氧化锰作为电极活性物质,用循环伏安和恒流充放电方法对所备的电极进行了电化学性能测试,并用无结构的二维电极进行对比实验. 结果表明,三维电极结构能有效增强电容器的电荷贮存能力,在1.0 mA/cm²的充放电密度下,三维电极的单位底面积比电容达17.88 mF/cm²,是相应二维电极的7倍.     

超高分辨红外光谱仪器最高分辨率的测定实验

在超高分辨红外光谱仪器最高分辨率的测定实验中,采用20cm光程的CO2气体池,控制气体压力为180Pa,基于MIR光源,采用LN-MCT探测器,切趾函数选矩形函数,通过720～720.8cm-1波数的实验测定,得到红外光谱仪器BrukerIFS125HR的最高分辨率为0.001cm-1.     

Accurate calculations of the helium atom in magnetic fields

The 1 1 0 +,1 1 (-1) + and 1 1 (-2) + states of the helium atom in the magnetic field regime between 0 and 100 a.u.are studied using a full configuration-interaction (CI) approach.The total energies,derivatives of the total energy with respect to the magnetic field and ionisation energies are calculated with Hylleraas-like functions in spherical coordinates in low to intermediate fields and Hylleraas-Gaussian functions in cylindrical coordinates in intermediate to high fields,respectively.In intermediate fields,the total energies and ionisation energies are determined in terms of Hermite interpolation,based on the results obtained with the two above-mentioned basis functions.Calculations show that the current method can produce lower total energies and larger ionisation energies,and make the two ionisation energy curves obtained with the two above-mentioned basis functions join smoothly in intermediate fields.Comparisons are also made with previous works.     

飞秒激光对氟化镁烧蚀机理研究

用扫描电镜(SEM)研究了氟化镁在800nm超短脉冲激光作用下的单枪表面烧蚀形貌.根据烧蚀斑面积与激光脉冲能量间的对数关系，测得烧蚀阈值与激光脉宽的关系曲线(55—750fs).计算了导带电子的双光子吸收，改进了多速率方程模型，很好地解释了实验结果. 关键词： 飞秒激光 氟化镁 烧蚀机理 双光子吸收