金属铜电沉积过程分形研究

对金属铜电沉积过程中的二维枝晶生长现象进行了研究,测定了沉积时间和电流之间的关系曲线,分析了外加电压、电解质浓度以及实验温度等实验条件对电沉积产物形貌及其分形维数的影响.分形维数随外加电压的改变呈现不规则的变动,随电解质浓度的增大而增大,随着电沉积温度的升高,沉积产物的分形维数先呈现上升趋势,当温度达到某一数值后,沉积产物的分形维数则在某一温度范围内呈现在波动现象,随着电沉积温度的进一步上升,沉积产物的分形维数呈现出下降的趋势.     

金属线电极分形生长的模拟

电沉积金属过程中,阴极沉积的金属边缘会出现包括枝晶生长在内的许多复杂形态,这会严重影响电沉积产品的质量和加工过程中的电流效率. 对枝晶分形生长的过程以及形貌进行研究,可以实现对沉淀物的可控生长. 本研究使用Python和Matlab软件相互结合,基于扩散限制凝聚（DLA）模型,建立平行线电极电沉积的模型. 通过分析不同粒子数、沉积概率、电极间距、运动步长、定向漂移条件下的分形生长的变化规律,以及模拟参数与实际电沉积因素对分形生长影响的内在联系,发现只要合理控制模拟的粒子数、沉积概率、线电极间距、运动步长、定向漂移概率参数即可与实际电化学体系的浓度和沉积时间、还原概率、两极间距、温度和电压、电极的相对位置和形状一一对应,从而模拟得到跟实际电沉积接近的分形图,最终可实现对分形生长的可控操作,对分形生长在工业电沉积等方面应用有很大的意义.     

单液流锌镍电池锌负极性能及电池性能初步研究

对单液流锌镍电池锌电极在电解液流动状态下,电沉积锌形貌随电流密度的变化进行表征,结果表明,随充电电流密度的增大电沉积锌层逐渐致密化,没有枝晶生成.组装了容量为2Ah的电池,并进行长时间充放电性能研究.测试结果该电池的平均充电电压为1.84 V,平均放电电压1.65 V,平均库仑效率达到96%,能量效率达到了86%.     

电沉积微纳米晶铁的形貌与生长机理研究

研究电流密度、温度、浓度和表面活性剂对电沉积微纳米晶铁电沉积过程的影响,SEM和XRD测试结果表明:于小电流密度、低温和高浓度下电流积,可得到片状α-Fe,而在大电流密度、高温和低浓度下电沉积则得到枝晶-αFe,表面活性剂对产物的形貌和组成没有影响.并讨论电沉积过程中产物的形成机制.     

添加剂丙烯基硫脲对镍电沉积的影响研究

采用循环伏安、线性扫描和恒电位阶跃电化学方法结合扫描电镜研究了不同浓度的丙烯基硫脲(ATU)对NH₃-NH₄Cl-H₂O体系镍在玻碳电极上的电沉积过程的影响. 循环伏安测试、线性扫描以及恒电位暂态曲线一致表明ATU的加入对镍电沉积具有阻化作用,并且随着ATU浓度的增加其阻化作用增强;恒电位暂态曲线结果表明,镍的电结晶是按瞬时形核三维生长机理进行的,随外加电位负移,晶体向外生长速率增大;ATU的加入没有改变镍的形核方式,但形核数密度增大,并且减小晶体向外生长的速率;扫描电镜结果表明,ATU的加入可以细化晶粒,得到整平、致密的镍沉积层.     

氟硼酸镀液二氧化铅电沉积

研究了在氟硼酸或其掺杂镀液中于Pt基底电沉积PbO2镀层的电化学和结构性质.循环伏安测试、XRD分析和SEM形貌观察表明,BF4-可提高二氧化铅电沉积速率;电沉积的PbO2晶型为β-PbO2;F-、Fe3+共掺杂影响晶体生长的择优取向及镀层形貌,电沉积的FB/F-Fe-PbO2镀层整齐致密;电沉积过程增大电流密度可改变生长晶面取向.     

碳布负载高致密Sn/SnBi合金的电催化CO2还原性能

通过分步电沉积法制备碳布(CC)负载高致密Sn/SnBi合金催化剂：首先在CC上电沉积致密Sn颗粒,而后利用酸性电解液部分溶解Sn为Sn²⁺离子,实现在Sn颗粒表面共沉积SnBi合金枝晶,随后经过原位化学氧化及电化学还原步骤将SnBi合金枝晶转变为SnBi合金纳米颗粒(SnBi NPs)。得益于Sn提供形核位点,SnBi枝晶在碳织物表面垂直致密生长,并通过后续氧化还原转化实现了直径约20 nm的SnBi合金颗粒在CC上致密均匀生长。CC/Sn/SnBi NPs三维电极在-1.08 V (vs RHE)下显示出较高的电催化还原CO₂活性,电流密度高达36 mA·cm^-2且甲酸盐产物选择性为94.9%。同时,在连续12 h恒电压测试中性能未发生衰减,表明电极具有良好的稳定性。     

碳布负载高致密Sn/SnBi合金的电催化CO2还原性能

通过分步电沉积法制备碳布(CC)负载高致密Sn/SnBi合金催化剂：首先在CC上电沉积致密Sn颗粒,而后利用酸性电解液部分溶解Sn为Sn²⁺离子,实现在Sn颗粒表面共沉积SnBi合金枝晶,随后经过原位化学氧化及电化学还原步骤将SnBi合金枝晶转变为SnBi合金纳米颗粒(SnBi NPs)。得益于Sn提供形核位点,SnBi枝晶在碳织物表面垂直致密生长,并通过后续氧化还原转化实现了直径约20nm的SnBi合金颗粒在CC上致密均匀生长。CC/Sn/SnBiNPs三维电极在-1.08V(vsRHE)下显示出较高的电催化还原CO₂活性,电流密度高达36mA·cm^-2且甲酸盐产物选择性为94.9%。同时,在连续12h恒电压测试中性能未发生衰减,表明电极具有良好的稳定性。     

双金属Ag-Cu枝晶的制备及应用

通过铜箔基体上电沉积泡沫铜结合伽尔瓦尼置换反应制备出了银-铜(Ag-Cu)纳米枝晶, 利用X射线衍射(XRD)和场发射扫描电子显微镜(FE-SEM)对枝晶的成分及形貌进行研究发现, 随着沉积过电位的增加, 铜的前驱体形貌由棒状到枝晶状, 最后发展为泡沫状, 但泡沫状的前驱体制备的Ag-Cu 枝晶却是最规整和致密的. 另外, 银离子的浓度也会影响枝晶的形貌, 一定范围内浓度的增加有利于枝晶的形成. 通过线性扫描伏安和电流-时间曲线对制备的Ag-Cu 枝晶催化性能进行表征, 在电解质溶液中, -0.25 V(相对于饱和甘汞电极(SCE))时有一个明显的双氧水(H₂O₂)还原峰, 这意味着Ag-Cu枝晶对H₂O₂的电还原具有较好的催化活性, 当该电极被用于双氧水传感器时, 电流响应快, 能在3 s 内达到稳态电流, 线性测量范围为0.1-12 mmol·L^-1, 灵敏度可以达到330.36 μA·(mmol·L^-1)^-1·cm^-2, 这点对于提高传感器的准确性非常重要.     

二次电子衬度曲线法研究PVC/MBS共混物断面的分形特征

利用二次电子衬度曲线法测定了聚氯乙烯甲基丙烯酸甲酯丁二烯苯乙烯共聚物(PVCMBS)共混物冲击断面的形貌特征及对应的分形维数值.结果表明,材料的断口或微观结构并不是严格的分形结构,这种自相似性仅存在于一定尺码范围内,不同断面形貌特征所对应的分形维数测量值不同,随着MBS用量增加,PVCMBS共混物缺口冲击强度随满足自相似原理的形貌特征所对应的分形维数值增大而增大.本文从理论上讨论了材料断裂韧性与分形维数的关系.     

Hierarchical assembly of diphenylalanine into dendritic nanoarchitectures

Highly ordered, multi-dimensional dendritic nanoarchitectures were created via self-assembly of diphenylalanine from an acidic buffer solution. The self-similarity of dendritic structures was characterized by examining their fractal dimensions with the box-counting method. The fractal dimension was determined to be 1.7, which demonstrates the fractal dimension of structures generated by diffusion limited aggregation on a two-dimensional substrate surface. By confining the dendritic assembly of diphenylalanine within PDMS microchannels, the self-similar dendritic growth could be hierarchically directed to create linearly assembled nanoarchitectures. Our approach offers a novel pathway for creating and directing hierarchical nanoarchitecture from biomolecular assembly.     

Disordered grown systems: Generation and fractal analysis. Electrodeposition

The basic concepts of fractal geometry are reviewed and applied to quasi-two-dimensional zinc electrodeposits. Among the different structures developed during zinc electrodeposition, we have identified the open texture (obtained at large zinc sulfate concentration and small applied potential values) as a typical fractal self-similar structure. © 1994 John Wiley & Sons, Inc.     

Mobility and aggregation of free clusters soft landed on amorphous and crystalline carbon substrates

Neutral antimony clusters produced by a gas aggregation source have been deposited at room temperature on thin films of amorphous carbon and cleavage surfaces (0001) of graphite. Antimony islands generated from different mean size distributions of preformed clusters Sb_n(n = 4, 90, 150, 250, 600, 2000) have been investigated by transmission electron microscopy. Only compact islands have been observed on amorphous carbon, whereas an evolution from compact to dendritic shapes occurs on graphite substrate as the mean size of the deposited clusters increases. For clusters containing more than 150 atoms the dendritic islands exhibit a fractal character whose dimensional analysis yields a fractal dimension of 1.63 ± 0.07. The different models for island growth are discussed in the light of these results.     

聚氯乙烯缺口冲击断面粗糙度定量分析

聚氯乙烯缺口冲击断面粗糙度定量分析于杰（贵州工学院材料中心，贵阳，５５０００３）金志浩，周惠久（西安交通大学材料系，西安，７１００４９）关键词分形，冲击强度，温度，聚氯乙烯实际材料的断裂表面是一种近似的或统计意义上的分形模型．分形维数是断面粗糙度的定...     

Pattern formation of zinc nanoparticles in silica film by electrodeposition

Zinc nanoparticles were grown within gel-derived silica films by applying a direct current voltage. Pattern formation of metallic Zn was studied as a function of applied voltage and metal-silica ratio. Average particle size varied from 5.2 to 20.2 nm by changing the applied voltage and silica concentration. It was found that the transition from fractal to dendritic morphology was possible due to crystalline anisotropy. From high-resolution transmission electron microscopy images and X-ray diffraction pattern a possible model is proposed to explain this observation.     

高磺化度聚苯胺体系中的分形结构研究

通过透射电镜的观察研究发现磺化聚苯胺的胶体聚集体和胶粒内部结构都具有分形体的特征 ,从而将分形的概念及其数学模型引入共轭导电聚合物体系之中 .磺化聚苯胺胶体的聚集体为很不均匀的分支状开放结构 ,其形成过程可用扩散控制集团聚集模型 (DLCA)进行模拟 ,计算机模拟生成的图形及其分形维数都与实验观测结果相当吻合 .胶粒由于是在分散介质所形成的平均化场中生成 ,屏蔽效应减弱 ,是比由它组成的聚集体要致密的球形结构 ,该结构的生成可用随机雨点模型模拟且结果相近 .     

Fractal structures of the hydrogels formed in situ from poly(N-isopropylacrylamide) microgel dispersions

Dispersions of poly(N-isopropylacrylamide) (PNIPAM) microgel thermally gel in the presence of inorganic salts. The in situ-formed hydrogels, with a network of soft particles, represent a new type of colloidal gels. Here, their fractal structures were determined by rheological measurements, using the models of both Shih et al. and Wu and Morbidelli. According to the definition of Shih et al., the colloidal PNIPAM gels fall into the strong-link regime. Yet the calculated fractal dimension of the floc backbone, x, yielded unrealistic negative values, suggesting this model is inapplicable for the present system. The Wu-Morbidelli model gives physically sounder results. According to this model, the strengths of the inter- and intrafloc links are comparable, and the in situ-formed gels are in the transition regime. The fractal dimension, d(f), of the hydrogel decreases from ～2.5 to ～1.8 when the heating temperature increases from 34 to 40 °C. The d(f) values suggest different aggregation mechanisms at different temperatures, that is, a reaction-limited one accompanied by rearrangement at low temperature, a typical reaction-limited one at the intermediate temperature, and a diffusion-limited one at high temperature. With increasing salt concentration, the d(f) of the hydrogel decreases from ～2.1 to ～1.7, suggesting the aggregation mechanism changes from reaction-limited to diffusion-limited. The effects of both temperature and salt concentration can be explained by the changes in the interactions among the microgel particles. The thermogellable PNIPAM microgel dispersions may serve as a model system for the study of heat-induced gelation of globular proteins.     

焦化过程半焦孔隙结构时空变化规律的实验研究——孔结构的分形特征及其变化

应用分形理论的概念，结合压汞法测得的半焦孔隙结构数据，建立孔结构分形特征模型，考察了焦化过程中不同焦化温度、不同横向空间位置半焦孔隙结构分形特征及其变化规律。结果表明，孔径大于5μm 的孔不具有分形特征，孔径为20nm～5μm孔的孔隙结构具有分形特征，其分形维数为2.45～2.83，可以用分形维数定量表征孔隙结构；相同空间位置下，半焦孔结构分形维数低温时较高，随温度逐渐升高先减小，然后增大再减小；同一空间位置不同温度下分形维数的变化量较小(< 0.15)，表明温度对半焦孔隙结构复杂程度的影响不明显；相同焦化温度下，半焦中心和边缘处的孔结构分形维数大于中间部位，表明中心位置和边缘位置处的孔隙结构要比中间位置处的复杂。     

煤焦分形维数及其对比热容的影响研究

比热容是煤炭热物理性质之一，在煤矿的矿井防火、防止煤与瓦斯突出、井下降温设计及煤炭加工利用(如煤炭的燃烧、气化、焦化、液化等)等方面是关键参数之一，对提高煤炭热能利用率、提高经济效益、减少环境污染等，具有非常重要的意义。比热容的影响因素很多，如煤化程度、水分质量分数、热解温度等，煤焦微观结构的影响也是其中很重要的一方面。分形几何由Mandelbrot 1982年创立，是定量描述自相似或自相关等不规则形体的工具。研究表明，煤焦微观结构具有分形特征。在煤焦分形的研究中，常用的实验技术方法为吸附法、小角度X射线散射法和孔度法，采用扫描电子显微镜和数字图象处理方法研究煤焦的分形结构，能更加深入地理解其分形维数与性能的关系。     

Formation process and fractal growth model of HCFC-141b refrigerant gas hydrate

The microscopic visualization experiment on the formation process of HCFC-141b refrigerant gas hydrate has been investigated, and the morphological photos of hydrate formation process have been obtained. The results show that gas hydrate originally nucleated on the interface of refrigerant HCFC-141b and water under the condition of supercooling, then the hydrate grows continually due to the inducement of formed nucleation and diffusion of refrigerant. The formation of gas hydrate presents an arboreous phenomenon. The fractal dimension of the hydrate formation morphology on different stages was calculated. The calculating results indicate that the initial stage of the hydrate formation belongs to fractal growth, and the dimension is about 1.52. Based on the fractal theory, an RIN-DLA (random inducement nucleation-diffusion limited aggregation) model for the HCFC-141b hydrate growth was developed. The hydrate growth process was simulated with the developed model, and the fractal dimension for the simulated