电化学和sol-gel法结合制备Cu-SiO_2薄膜——不同pH值CuSO_4硅溶胶中Cu的电化学行为

研究金属或半导体在溶胶中的电化学行为对电化学和溶胶-凝胶(sol-gel)法结合制备掺杂金属和半导体的复合凝胶薄膜有极大指导意义。用循环伏安(CV)和计时安培(CA)法研究了电化学和sol-gel法结合制备Cu-SiO2凝胶薄膜时不同pH值CuSO4硅溶胶中Cu在玻碳电极上的电沉积和电结晶行为。结果表明:在pH=1.0~3.0的CuSO4硅溶胶中,Cu2+的扩散系数在pH=2.0时最小,pH=1.0时较pH=3.0时大,这也是造成硅溶胶中pH=2.0时还原最难,pH=3.0时次之,pH=1.0时最易的原因;Cu在硅溶胶中的电沉积为Langmuir型吸附-三维瞬时成核机理;硅溶液中Cu2+的传递系数均大于0.9,存在吸附层;Cu2+在吸附过程的总放电量Qads随pH值增大而增大;Cu的成核数密度都随电位增大而增大,随pH值增大而减小,故pH值在1.0~3.0内越大越不利于制备Cu-SiO2薄膜。

Characterization and photoelectrochemical performance of Zn-doped TiO_2 films by sol-gel method

Zn-doped TiO2 (Zn?TiO2) thin films were prepared by the sol?gel method on titanium substrates with heat treatment at different temperatures. The effects of heat treatment temperatures and Zn doping on the structure, photocathodic protection and photoelectrochemical properties of TiO2 thin films were investigated. It is indicated that the photoelectrical performance of the Zn?TiO2 films is enhanced with the addition of Zn element compared with the pure-TiO2 film and the largest decline by 897 mV in the electrode potential is achieved under 300 °C heat treatment. SEM?EDS analyses show that Zn element is unevenly distributed in Zn?TiO2 films; XRD patterns reveal that the grain size of Zn?TiO2 is smaller than that of pure-TiO2; FTIR results indicate that Zn - O bond forms on Zn?TiO2 surface. Ultraviolet visible absorption spectra prove that Zn?TiO2 shifts to visible light region.Mott?Shottky curves show that the flat-band potential of Zn?TiO2 is more negative and charge carrier density is bigger than that ofpure-TiO2, implying that under the synergy of the width of the space-charge layer, carrier density and flat-band potential, Zn?TiO2 with 300 °C heat treatment displays the best photocathodic protection performance.

Preparation of Nanometer-structured TiO_2 Thin Films by Sol-Gel Method

The transparent anatase TiO 2 nanometer thin films were prepared by the sol-gel method on soda-lime glass.X-ray diffraction,thermal analysis and UV-visible spectrophotometer were used to analyze the formation of the phases.Only increasing the heat-treatment time,the average grain size has no obvious change.The mechanism of grain growth in TiO 2 thin film is probably as follows:the grain of coating will become grain core later;TiO 2 sol constantly deposited on the surface of TiO 2 grain and formed membrane with increasing of coating cycle times;TiO 2 grain in the film grow steadily.

Preparation of CuYO2 Thin Films by Sol-Gel Method Using Copper Acetate and Yttrium Acetate as Metal Sources

Delafossite structured p-type wide bandgap semiconductor, CuYO2 thin films were prepared on SiO2 substrate by sol-gel method using copper (II) acetate and yttrium (III) acetate as source materials. The films preparation process was studied by varying annealing temperature after the preparation of gel films by spin coating, followed by thermal annealing at higher temperature. In the present work, one step annealing directly from Cu-Y-gel under nitrogen flow was used. X-ray diffraction (XRD) revealed that the film annealed at 800。C is significantly c-axis oriented, shows only (002) and (004) peaks at 15.6。 and 31.5。, respectively. The optical bandgap of 3.7 - 3.8 eV is estimated by (αhν)2 plot which is higher than previous works. In addition, the films with highly c-axis orientation showed photoluminescence (PL) at room temperature with very broad peak at 2.3 eV. The films annealed at different temperature showed different structural properties.

Sol-Gel法制备低阻SnO_2薄膜

采用sol gel法制备了SnO2 薄膜。研究了不同的实验条件对薄膜阻值的影响。利用XRD、XPS分析了薄膜的晶体结构和晶粒尺寸。利用这种低阻SnO2 薄膜制作的热线型气敏元件对H2

用Sol-Gel法制备气敏传感器SnO_2薄膜的研究

采用无机试剂 ( Sn Cl4 · 5H2 O)为原料 ,用溶胶 -凝胶 ( Sol-Gel)法制备研制气敏传感器的 Sn O2 薄膜 ,研究了 Sn O2 薄膜的电阻随掺杂和温度的变化关系 ,并且用 XRD对 Sn O2 薄膜进行分析 .结果表明 ,掺杂和热处理温度对薄膜晶粒尺寸的大小、薄膜的结构形态均有较大的影响 ,进而影响薄膜的电导及传感器的灵敏度 .

Sol-Gel法制备SnO_2纳米晶薄膜

以Sn(OH) 4 水合胶体为原料 ,采用简单的旋转涂覆与烧结工艺在Si片上成功制备出了表面形貌平整、光亮的SnO2 纳米晶薄膜 ,为该种材料制作实用的气敏元件打下了很好的基础。

溶胶-凝胶SiO_(2)减反膜的制备与光学性能研究

碱催化溶胶-凝胶多孔SiO_(2)减反膜具有优异的光学性能及抗激光损伤性能,是高功率激光装置中的重要组成部分,但其与光学元件之间的结合强度低,使得膜层易发生接触破坏。本研究以“神光II”高功率激光装置溶胶-凝胶多孔SiO_(2)减反膜为基础,通过提拉法在其表层涂覆致密的SiO_(2)薄层后得到机械强度提升的双层SiO_(2)减反膜(SiO_(2)-MTES),并与常用的单层氨固化SiO_(2)减反膜(SiO_(2)-HMDS)进行相关应用性能的综合比较。结果表明,涂覆SiO_(2)-MTES的熔石英在约800 nm处的峰值透过率大于99.6%,运用1-on-1激光损伤阈值测试方法测得该双层SiO_(2)减反膜的零几率激光损伤阈值为51.9 J/cm^(2)(1064 nm,9.1 ns),与涂覆SiO_(2)-HMDS的性能相当。同时,SiO_(2)-MTES膜层与水的接触角达到117.3°,且在相对湿度大于90%的高湿环境中膜层的透过率较稳定。多次擦拭实验结果表明SiO_(2)-MTES的耐摩擦机械强度明显优于SiO_(2)-HMDS,有效提升了膜层与光学元件之间的结合强度。

溶胶-凝胶法制备SiO_(2)减反射薄膜及其耐久性

目的增加太阳光在太阳能电池玻璃盖板的透过率,以期提高太阳能电池的转换效率。方法以正硅酸乙酯为原料、乙醇为溶剂、氨水为催化剂,采用碱催化溶胶-凝胶浸渍提拉法,在玻璃表面制备了SiO_(2)减反射薄膜,研究了溶胶中正硅酸乙酯与乙醇物质的量比和提拉镀膜速度对SiO_(2)薄膜光学性质的影响,分析了减反射薄膜的耐久性。结果碱性溶胶制备的SiO_(2)为非晶相,采用浸渍提拉法在玻璃表面制备的薄膜结构疏松,且存在微裂纹。采用正硅酸乙酯与乙醇物质的量比为1∶20、提拉速度为500μm/s及正硅酸乙酯与乙醇物质的量比为1∶30、提拉速度为1000μm/s制备的SiO_(2)薄膜,折射率分别为1.35和1.33,厚度分别为101.11、102.63nm,最大透过率分别高于未镀膜玻璃6.57%和6.94%,在400~1100nm波长范围内的平均透过率分别高于未镀膜玻璃5.01%和5.34%,表明该薄膜具有优异的减反射性能。玻璃表面制备SiO_(2)薄膜后,水接触角约为5°,具有超亲水性。将未镀膜玻璃及镀膜样品在实验室放置5个月后,采用正硅酸乙酯与乙醇物质的量比为1∶20、提拉速度为500μm/s及正硅酸乙酯与乙醇物质的量比为1∶30、提拉速度为1000μm/s的制备SiO_(2)薄膜的最大透过率分别高于未镀膜玻璃7.50%和6.71%,在400~1100 nm波长范围内的平均透过率分别高于未镀膜玻璃5.94%和5.59%,表明SiO_(2)薄膜的减反射性能具有较好的耐久性。结论采用碱催化溶胶-凝胶法在玻璃上制备的SiO_(2)减反射薄膜具有超亲水性及优异的减反射耐久性,在太阳能电池玻璃盖板上具有潜在的应用价值。

Al_(2)O_(3)-Ce_(2)O_(3)复合薄膜对304不锈钢抗高温氧化性能的影响

为提高304不锈钢的抗高温氧化性能,采用溶胶-凝胶法以异丙醇铝和CeCl_3·7H_(2)O为原料,在304不锈钢表面分别制备了Al_(2)O_(3)薄膜和Al_(2)O_(3)-Ce_(2)O_(3)复合薄膜,通过氧化动力学曲线、XRD、SEM和EDS分析,研究了不同Ce/Al比例(摩尔比,下同)的Al_(2)O_(3)-Ce_(2)O_(3)复合薄膜对304不锈钢900℃抗高温氧化性能的影响。结果表明,涂覆Ce∶Al=1∶10的薄膜试样在900℃循环氧化100 h后的氧化增重与氧化剥落量仅为未涂覆试样的34.1%和51.8%,抗高温氧化性能最佳。Al_(2)O_(3)-Ce_(2)O_(3)复合薄膜降低了304不锈钢基体表面的氧分压,有利于生成保护性的Cr_2O_(3)氧化层,有效抑制了Cr_2O_(3)的挥发;添加Ce_(2)O_(3)降低了氧化层中的热应力,提高了其附着力;Ce_(2)O_(3)起到了活性元素效应,改变了氧化膜的生长机制,因此显著提高了不锈钢的抗高温氧化性能。

A symmetric MnO_2/MnO_2 flexible solid state supercapacitor operating at 1.6V with aqueous gel electrolyte

The demand of microelectronic devices postulated high energetic flexible energy storage devices. Flexible solid state supercapacitor is flawless possible candidate to fulfill the requirement of microelectronic devices. This investigation provides practical evidence of the use of flexible solid state supercapacitors based on MnOelectrodes with polyvinylpyrrolidone(PVP)-Li ClOgel electrolyte. Initially, different acid mediated growths of MnOhave been carried. Later, the electrochemical performances of MnOelectrodes have been carried out. Impressively, the fabricated symmetric flexible solid state supercapacitor(FSS-SC) device demonstrates the highest operating potential window of 1.6 V with extended cycling stability. Moreover, the cell exhibits high energy density of 23 Wh/kg at power density of 1.9 k W/kg. It is interesting to note that the device shows excellent flexibility upon bending at angle of 180° for number of times. These results clearly evidenced those symmetric FSS-SC devices based on MnOelectrodes are promising energy storage devices for microelectronic applications.

基于ZrO_(2)-SiO_(2)和介孔SiO_(2)凝胶膜制备可见光区双层减反射膜

采用溶胶-凝胶法,以正丙醇锆、正硅酸四乙酯为原料,在乙醇体系中以原位混合方式成功制备ZrO_(2)-SiO_(2)混合溶胶,Zr摩尔分数为20%~80%。在熔融石英基底上镀制混合凝胶膜,所得ZrO_(2)-SiO_(2)薄膜折射率在1.55~1.75之间可调。以有序介孔SiO_(2)薄膜为外层,选择与之匹配的ZrO_(2)-SiO_(2)薄膜为内层,构建λ/4~λ/2双层宽谱带减反射涂层。根据实际膜层的光学常数进行双层膜的优化设计,成功制备出在可见光区平均透射率达到99.17%的双层减反射薄膜。

双层SiO_(2)宽谱带减反射涂层的制备及性能表征

采用无模板溶胶-凝胶法,成功制备在可见光范围内具有高透射率和良好疏水性的宽谱带减反射双层SiO_(2)涂层。采用提拉法在石英基底上沉积SiO_(2)双层涂层,底层和顶层的折射率分别为1.34和1.15。其中,底层由酸催化和碱催化混合SiO_(2)溶胶制备得到,顶层薄膜的溶胶是使用六甲基二硅氮烷(HMDS)作为改性剂,制备得到三甲基硅烷化的SiO_(2)纳米粒子体系。根据优化膜系设计要求,选择合适工艺参数镀制双层涂层,测试结果显示,SiO_(2)双层涂层在可见光区的平均透射率为98.64%,静态水接触角可达134°。

钨镍共掺杂V_(2)O_(5)薄膜的光电特性研究

利用溶胶–凝胶旋涂法和后退火工艺在FTO导电玻璃上制备了钨镍共掺杂V_(2)O_(5)薄膜,研究了薄膜在不同温度和不同偏压下的光电特性和相变特性。利用X射线衍射仪(XRD)、扫描电子显微镜(SEM)和X射线光电子能谱仪(XPS)测试了钨镍共掺杂V_(2)O_(5)薄膜的晶体结构、表面形貌和组分,分析了不同钨镍共掺杂浓度对V_(2)O_(5)薄膜相变光电特性的影响。结果表明,当钨和镍的掺杂质量分数分别为3%和1.5%时,钨镍共掺杂的V_(2)O_(5)薄膜的相变温度为218.5℃,在可见光范围内有较高的透过率,在近红外1310 nm波长处的光学透过率达48.83%,与未掺杂V_(2)O_(5)薄膜的光学透过率相比提高了10.29%,薄膜电阻降低了30.53%,热致回线宽度收窄为15℃,说明钨镍共掺杂的V_(2)O_(5)薄膜具有良好的可逆相变光电特性,有望在新型光电器件领域得到较好的应用。

TiO_2/Pt/glass纳米薄膜的制备及对可溶性染料的光电催化降解

ＴｉＯ２／Ｐｔ／ｇｌａｓ纳米薄膜的制备及对可溶性染料的光电催化降解符小荣＊张校刚＊＊宋世庚王学燕谭辉陶明德（中国科学院新疆物理研究所乌鲁木齐８３００１１，＊＊新疆大学化学系乌鲁木齐）关键词光催化，ＴｉＯ２，光电化学，薄膜，溶胶－凝胶法１９９６－０９－...

溶胶-凝胶法制备TiO_2/玻璃膜和光催化降解玫瑰红B的研究

以 Ti( OC4H9) 4为原料采用溶胶 -凝胶法制备了纳米 Ti O2 /玻璃薄膜光催化剂 ,用 X射线衍射法对催化剂的物相、粒径进行了表征 .结果表明 ,薄膜中 Ti O2 为锐钛矿晶型 ,粒径 1 5～ 2 5nm.用 X射线光电子能谱法分析膜的化学组成 .摩擦学实验表明 ,Ti O2 /玻璃膜具有良好的减磨和抗磨性能 .水中染料玫瑰红 B的光催化氧化降解实验结果表明 ,Ti O2 膜对玫瑰红 B降解有很高的催化活性 ,其降解反应对时间和浓度均为一级反应 ,反应速率可用 Langmuir-Hinshelwood方程描述 .

溶胶-凝胶法制备TiO_2/Pt/glass纳米薄膜及其光电催化性能

本文采用Ｓｏｌ－ｇｅｌ法制备了ＴｉＯ２／Ｐｔ／ｇｌａｓ纳米光催化薄膜，并进行了结构和光电催化性能的测试。薄膜对染料溶液的光电催化降解结果表明：当输入正向偏压后，ＴｉＯ２／Ｐｔ／ｇｌａｓ薄膜的光催化性能有一定提高，且随着偏压增大而增强。同时，薄膜的中间层Ｐｔ及光源强度对薄膜的光电催化活性也有较大影响。

纳米TiO_2/Si薄膜的制备与光催化性能的研究

纳米ＴｉＯ２／Ｓｉ薄膜的制备与光催化性能的研究符小荣１，＊宋世庚１，２王学燕１谭辉１武光明１陶明德１（１中科院新疆物理所，乌鲁木齐８３００１１）（２中科院上海冶金所信息功能材料国家重点实验室，上海２０００５０）关键词ＴｉＯ２，光催化，薄膜，溶胶－凝胶...

VO_2薄膜的主要制备工艺参数研究

通过正交试验设计对制备ＶＯ２薄膜过程中的部分影响因素（膜厚，最终热处理温度和热处理保温时间）进行了分析研究。ＶＯ２薄膜由无机溶胶－凝胶法制备Ｖ２Ｏ５凝胶膜经真空热处理而成。试验结果表明，ＶＯ２薄膜的最终电学性能明显受到膜厚、热处理温度和保温时间的影响。其中以热处理温度的影响作用最为显著。当真空度为３Ｐａ、升温速率为２℃／ｍｉｎ时，在试验参数范围内（真空热处理温度３４０～５００℃，保温时间４０～２４０ｍｉｎ，膜厚０．２５～０．４５μｍ），经分析得到使ＶＯ２薄膜具有最大电阻突变特性的优化工艺为：加热温度５００℃，保温时间１４０ｍｉｎ，膜厚０．２５μｍ。文中对试验结果进行了讨论。

纳米TiO_2/玻璃膜的制备及其光催化性能

以钛醇盐为原料 ,采用溶胶 凝胶法制备了纳米TiO2 /玻璃薄膜。XRD、AFM和厚度分析表明 ,纳米TiO2 /玻璃薄膜中TiO2 为锐钛矿型结构 ,粒径为纳米级 ,三层膜的总厚度为 2 0 0nm。通过调节热处理温度 ,能有效控制薄膜中粒子的大小。UV VIS吸收光谱表明 ,TiO2 /玻璃薄膜可以有效地降解罗丹明B染料废水 ,其光催化活性随TiO2 粒径的减小而增大 ,受膜厚增加的影响不大。