Preparation of highly dispersed antimony-doped tin oxide nanopowders by azeotropic drying with isoamyl acetate

Antimony-doped tin hydroxide colloid precipitates were prepared by hydrolysis of SnCl4·5H2O and SbCl3 ethanol solutions. Isoamyl acetate was selected as azeotropic drying solvent and was compared with the most commonly used n-butanol solvent on treating precipitate for low hard agglomeration precursor powders. The FT-IR, BET, XRD, and TEM results of the precursor powders and calcinated antimony-doped tin oxide powders were recorded. The results demonstrate that isoamyl acetate is an excellent azeotropic drying solvent that can effectively prevent the agglomeration of particles and greatly improve the fluffiness of the obtained dried powders. After these precursor powders are calcined, antimony-doped tin oxide nanopowders with tetragonal rutile structure and high dispersivity can be obtained.

Mixed iridium-nickel oxides supported on antimony-doped tin oxide as highly efficient and stable acidic oxygen evolution catalysts

Proton exchange membrane(PEM)water electrolysis represents a promising technology for green hydrogen production,but its widespread deployment is greatly hindered by the indispensable usage of platinum group metal catalysts,especially iridium(Ir)based materials for the energy-demanding oxygen evolution reaction(OER).Herein,we report a new sequential precipitation approach to the synthesis of mixed Ir-nickel(Ni)oxy-hydroxide supported on antimony-doped tin oxide(ATO)nanoparticles(IrNiyO_(x)/ATO,20 wt.%(Ir+Ni),y=0,1,2,and 3),aiming to reduce the utilisation of scarce and precious Ir while maintaining its good acidic OER performance.When tested in strongly acidic electrolyte(0.1 M HClO_(4)),the optimised IrNi1Ox/ATO shows a mass activity of 1.0 mAµgIr^(−1) and a large turnover frequency of 123 s^(−1) at an overpotential of 350 mV,as well as a comparatively small Tafel slope of 50 mV dec^(−1),better than the IrOx/ATO control,particularly with a markedly reduced Ir loading of only 19.7µgIr cm^(−2).Importantly,IrNi1O_(x)/ATO also exhibits substantially better catalytic stability than other reference catalysts,able to continuously catalyse acidic OER at 10 mA cm^(−2) for 15 h without obvious degradation.Our in-situ synchrotron-based x-ray absorption spectroscopy confirmed that the Ir^(3+)/Ir^(4+)species are the active sites for the acidic OER.Furthermore,the performance of IrNi1Ox/ATO was also preliminarily evaluated in a membrane electrode assembly,which shows better activity and stability than other reference catalysts.The IrNi1Ox/ATO reported in this work is a promising alternative to commercial IrO_(2) based catalysts for PEM electrolysis.

Preparation of antimony-doped nanoparticles by hydrothermal method

Antimony-doped tin oxide(ATO) nanoparticles were prepared by the mild hydrothermal method at 200 ℃ using sodium stannate, antimony oxide, sodium hydroxide and sulfuric acid as the starting materials. The doped powders were examined by differential thermal analysis(DTA), X-ray diffractometry(XRD) and transmission electron microscopy(TEM). The doping levels of antimony were determined by volumetric method and iodimetry.The results show that antimony is incorporated into the crystal lattice of tin oxide and the doping levels of antimony in the resulting powders are 2.4%, 4.3 % and 5.1 % (molar fraction). The mean particle size of ATO nanoparticles is in the range of 25 - 30 nm. The effects of antimony doping level on the crystalline size and crystallinity were also discussed.

Facile synthesis of graphitic carbon-nitride supported antimony-doped tin oxide nanocomposite and its application for the adsorption of volatile organic compounds

Antimony-doped tin oxide(ATO) nanoparticles with an average size of ～ 6 nm were prepared by co-precipitation and subsequent heat treatment. Graphitic carbon nitride(g-CN)/ATO hybrid nanocomposite was designed by the combination of thermally synthesized g-CN and ATO nanoparticles by ultrasonication. The materials were characterized using N2 adsorption/desorption(BET), X-ray diffraction(XRD), scanning electron microscopy(SEM), energy dispersive spectroscopy(EDS), transmission electron microscopy(TEM) and Fourier transform infrared spectroscopy(FTIR). A mixture of five volatile organic compounds(VOCs, chloroform, benzene, toluene, xylene and styrene) was used to compare the adsorption capacity of the samples. The adsorption capacity of ATO nanoparticles was improved by the addition of g-CN. Experimental data showed that, among the five VOCs,chloroform was the least adsorbed, regardless of the samples. The g-CN/ATO showed nearly three times greater adsorption capacity for the VOC mixture than pure ATO. The unchanged efficiency of VOC adsorption during cyclic use demonstrated the completely reversible adsorption and desorption behavior of the nanocomposite at room conditions. This economically and environmentally friendly material can be a practical solution for outdoor and indoor VOC removal.

nano-ATO对双层共挤PE-LD农用棚膜性能的影响

采用双螺杆挤出机制备含有不同组分的nano-ATO/线型低密度聚乙烯(PE-LD)内层和外层母粒,利用双层共挤吹塑制备PE-LD/nano-ATO双层农用棚膜,并对PE-LD/nano-ATO棚膜进行了紫外老化处理;通过傅立叶变换红外光谱(FTIR)研究了不同含量nano-ATO在复合棚膜内外层母粒中的相容性,探讨了nano-ATO的用量对复合棚膜流滴性、拉伸性能和透光性的影响。结果表明,抗氧剂、紫外吸收剂、油酸酰胺、流滴剂和用硅烷偶联剂处理过的nano-ATO等物质可以与PE-LD相容;nano-ATO的加入可以提高棚膜内层的流滴性和棚膜的拉伸强度,但会降低棚膜对光的透过率;nano-ATO对紫外光有反射或折射作用,可以降低棚膜的老化程度,因此,紫外老化后的棚膜,拉伸强度和透光率的下降都会有所减缓。综合判断,nano-ATO添加量为2%～3%时,复合棚膜的抗老化性及其它综合性能较佳。

纳米颗粒透明隔热涂料的制备与性能研究

采用羟基丙烯酸树脂与氨基树脂,外加纳米铯钨青铜(Cs_(x)WO_(3))、氧化锡锑(ATO)及助、溶剂制备了纳米颗粒透明隔热涂料。探究了丙烯酸树脂羟基含量、氨基树脂、流平剂及附着力促进剂对隔热涂层性能的影响。结果表明:羟基质量分数为1.7%~2.2%的丙烯酸树脂与高亚氨基高甲基化氨基树脂固化效果最佳,ATO/Cs_(x)WO_(3)按质量比1∶2添加可使涂层隔热透光效果兼优,聚醚改性有机硅流平剂可提升涂层耐划痕性且不影响漆膜外观,氨基硅烷类附着力促进剂可显著提升涂料热贮稳定性。

Electrical and Mechanical Properties of PMMA/nano-ATO Composites

Conducting nanocomposites of poly （methyl methacrylate） （PMMA） and antimony doped tin oxide （ATO） were prepared by solution blending. The influences of ATO content on the electrical conductivity, thermal stability, and mechanical properties of the nanocomposites were investigated. A homogeneous dispersion of silane coupling agent modified ATO was achieved in PMMA matrix as evidenced by scanning electron microscopy. The resultant PMMA/silane-ATO nanocomposites were electrically conductive with significant conductivity enhancement at 4 wt pct. It was found that the composition at 4 wt pct ATO gave the higher tensile strength. Furthermore, it gave the largest elongation at break value among all the compositions. Thermal stability of the nanocomposites was remarkably enhanced by the incorporation of silane-ATO.

掺锑二氧化锡包覆改善LiNi_(0.82)Co_(0.11)Mn_(0.07)O_(2)正极材料性能研究

采用固相法在LiNi_(0.82)Co_(0.11)Mn_(0.07)O_(2)(高镍NCM)正极材料表面包覆了纳米掺锑二氧化锡(ATO),并对比了不同包覆比例对正极材料性能的影响。扫描电子显微镜(SEM)检测表明,ATO在高镍NCM正极材料表面均匀分布。相比未包覆的高镍NCM正极材料(P-NCM),经过包覆的高镍NCM(ATO-NCM)表现出了更好的倍率性能与循环性能,0.25%(质量分数)ATO-NCM常温时3 C的放电比容量可达178.76 mAh/g,而P-NCM的放电比容量仅为166.02 mAh/g,1 C 50次循环后,0.25%的ATO-NCM材料的循环容量保持率为95.6%,远高于P-NCM的91.2%。ATO包覆可将高镍NCM的热分解温度提升10℃以上,且放热量更低。

DOP对纳米ATO水性浆料稳定性和涂层性能的影响

以含邻苯二甲酸二辛酯(DOP)的去离子水为分散介质,使用机械与超声相结合的方法,制备了纳米掺锑二氧化锡(ATO)水性浆料。使用静置沉降法、激光粒度仪和紫外-可见分光光度计对该水性浆料的分散稳定性进行了表征,并研究了DOP用量对含纳米ATO的水性聚氨酯(WPU)涂层性能的影响。结果表明:DOP与异丙醇、无水乙醇相比,更能促进纳米ATO粒子的分散。当ATO、DOP与水的质量比为5∶6∶89;匀浆机转速为30000 r/min,研磨时间为25 min,探头超声功率为600 W,离心机转速为6000 r/min时,可得到粒径分布较窄且颗粒尺寸较小的纳米ATO水性浆料。在适宜的条件下,厚度为150μm的ATO隔热WPU涂层的可见光透过率、紫外阻隔率及隔热率分别为81.2%、21.2%和11.5%。

锑掺杂二氧化锡(ATO)导电机理及制备方法研究现状

介绍了锑掺杂二氧化锡(ATO)的导电机理和该材料湿相制备方法的研究现状。晶格的氧缺位、5价Sb杂质在SnO_2禁带形成施主能级并向导带提供n-型载流子是ATO导电的2种主要机理,湿相制备超细ATO可分为均相沉淀和非均相沉淀方案,其中均相沉淀法的产品质量最佳。最后列举了ATO超细粉制备存在的问题。

锑掺杂二氧化锡薄膜的导电机理及其理论电导率

归纳总结了锑掺杂二氧化锡(ATO)的导电机理。晶格的氧缺位、5价Sb杂质在SnO2禁带形成施主能级并向导带提供n型载流子是ATO导电的两种主要机理。从材料的电导率公式出发,定性分析了二氧化锡中掺杂锑的含量存在理论最佳值,根据已有模型计算证明了锑掺杂二氧化锡电导率存在理论上限。掺杂二氧化锡中锑的最佳理论含量为1.49%(质量百分数),锑掺杂二氧化锡理论电导率最高为0.217×104(Ω·cm)-1,氧空位对ATO电导率的贡献为0.1506×104(Ω·cm)-1。

配合-共沉淀法制备锑掺杂二氧化锡(ATO)粉

在充分回收含锡阳极泥有价金属的基础上,采用从锡锑二次资源中直接提取的高纯氯锡酸铵和氯氧锑为原料,合成了性能优良的纳米级锑掺杂二氧化锡(ATO)粉。针对液相共沉淀法制备ATO的过程中,锡和锑的水解不同步从而未能实现真正共沉淀掺杂的问题,以(NH4)2SnCl6和Sb4O5Cl2为原料,采用配合共沉淀法,考察了反应过程中的pH、反应温度、掺锑浓度、煅烧温度、前驱体洗涤次数和分散剂种类等对ATO粒度和形貌的影响,确定了最优化条件,即:滴定终点pH=3,反应温度60℃,锑掺杂浓度10%(质量分数),热处理温度600℃,前驱体洗涤次数为6次,采用分散剂c,并进行了实验验证。

水性纳米复合隔热涂料的研制

以纳米ATO(掺锑二氧化锡)浆料和纳米TiO2粉体配合高反射与高辐射性能的颜填料,制备了一种水性纳米复合隔热涂料。乳液、颜料和填料筛选实验表明,聚合物乳液种类对涂层隔热性能几乎没有影响;颜料中,金红石型二氧化钛是性能最好的反射填料,其用量在PVC=18%时,涂层隔热性能最好;绢云母具有一定的辐射隔热效果,当其质量分数为11%时,涂层性能最忧,辐射率可达0.86;纳米ATO浆料具有良好的隔热效果,其最佳用量为10%。当以质量比为1∶2的添加量将纳米ATO和纳米TiO2加入到涂料中,所得涂层在全波段(200～2500nm)的太阳热反射比为86%,辐射率为0.86。

有机衬底SnO_2∶Sb透明导电膜的研究

采用射频磁控溅射法在有机薄膜衬底上制备出 Sn O2 ∶ Sb透明导电膜 ,并对薄膜的结构和光电特性以及制备参数对薄膜性能的影响进行了研究 .制备的样品为多晶薄膜 ,并且保持了纯二氧化锡的金红石结构 .Sn O2 ∶ Sb薄膜中 Sb2 O3的最佳掺杂比例为 6 % .适当调节制备参数 ,可以获得在可见光范围内平均透过率大于 85 %的有机衬底 Sn O2 ∶ Sb透明导电薄膜 ,其电阻率～ 3.7× 10 - 3Ω· cm ,载流子浓度～ 1.5 5× 10 2 0 cm- 3,霍耳迁移率～ 13cm2 · V- 1 ·

应用超临界流体干燥技术制备纳米锑掺杂氧化锡的研究

以无机盐SnCl4·5H2O,SbCl3为起始原料,以乙醇为溶剂,采用溶胶-凝胶法制备纳米锑掺杂氧化锡(ATO)粒子。在洗涤除去醇凝胶中的NH4+和Cl-后,尝试将超临界流体干燥(Supercritical Fluid Drying,SCFD)技术应用于醇凝胶的干燥。醇凝胶干粉经过高温烧结后,制得了疏松结构的纳米ATO粉体。采用XRD、TG/DSC、FESEM、TEM等分析方法对制得的前驱体干粉、纳米ATO粒子进行表征。XRD结果表明,采用溶胶-凝胶法结合超临界流体干燥技术制得了疏松的、四方型金红石结构的纳米ATO粉体,纳米ATO晶化程度高,并随着烧结温度的升高而升高。TG/DSC分析显示,600℃时前驱体分解完全,得到约78.2%的ATO粒子。从FESEM及TEM照片可以看出,疏松的纳米ATO粒子轻微地贴在一起,粒子的粒径在25nm左右。经过对超临界CO2干燥技术(SCFD)消除前驱体粒子团聚的机理进行分析,揭示了采用超临界CO2流体干燥醇凝胶能够使前驱体粒子保持松散的结构。因此采用溶胶-凝胶法结合超临界流体技术制得疏松的前驱体干粉,对最终获得粒径小、低团聚、分散性好的纳米ATO粉体的至关重要。

基于长时间测试的ATO/PU涂层隔热机理的研究

对掺锑二氧化锡(ATO)基透明隔热涂层的隔热效果进行了长时间测试,发现无论对被隔热空间还是对涂层本身,一定时间后能量均达到动态平衡,涂层具有持久隔热效果。用紫外-可见光-红外分光光度计表征了涂层光谱性能,发现其对红外光主要以吸收为主而非反射。根据光源能量流程去向和半导体物理学的相关理论对宏微观隔热机理进行了深入研究,认为ATO/PU(聚氨酯)涂层对入射光能量的阻隔,在紫外区域以本征吸收为主,反射为辅,在红外区域以自由载流子吸收为主,反射为辅,从而产生良好的隔热效果。

纳米级xSb_2O_3·(1-x)SnO_2导电颜料的制备及烧结动力学

高分子绝缘材料的广泛运用给工业生产和人们生活带来了极大的方便,其静电效应也带来了严重的危害.纳米级xSb2O3·(1-x)SnO2导电颜料属于半导体材料,作为一种颜料添加于涂料中,涂覆于绝缘制品表面,使其具有导电、抗静电和屏蔽电磁波等功能.以尿素为沉淀剂,利用均匀沉淀法制备出纳米级xSb2O3·(1-x)SnO2导电颜料,粒径约为10nm左右,电阻率为36.70Ω·cm;研究了沉淀剂、反应温度、Sn4+/Sb3+摩尔比等最佳工艺参数选择;SO42-离子引入对掺锑SnO2(ATO)电性能、粒径大小及形貌的影响;建立了ATO前驱体烧结过程的反应动力学模型,进而估算烧结反应的活化能为67.793kJ/mol.

磁控溅射法在有机衬底上制备SnO_2掺Sb透明导电膜

采用射频磁控溅射法在有机柔性衬底上制备出了SnO2: Sb透明导电膜,讨论了薄膜的结构和光电性质对制备条件的依赖关系。制备的样品为多晶薄膜,并且保持了二氧化锡的金红石结构。对衬底适当地加热,当衬底温度为200℃时,在PI(聚酰亚胺)胶片上制备出了性能良好的薄膜,薄膜相应自由载流子霍耳迁移率的最大值为13.9cm2/V·s,载流子浓度为15.5×1019 cm-3,薄膜电阻率的最小值为3.7×10-3W·cm。在可见光范围内,样品的相对透过率为85%左右。

纳米ATO水性分散液的制备及其分散稳定性研究

采用球磨法制备了3种纳米锑掺杂二氧化锡(简称ATO)水性分散液,包括未加分散剂,以非离子型高分子分散剂改性和以阴离子分散剂与非离子高分子分散剂复合改性3种情况,并通过Zeta电位仪、激光粒度仪、透射电镜、静止沉降实验等测试方法对纳米ATO水性分散液的稳定性进行了表征。结果发现,ATO纳米颗粒通过分散剂复合改性后,其水性分散液的稳定性最佳,当阴离子分散剂与非离子高分子分散剂的质量比为1∶2,复合分散剂用量为ATO粉体质量的6%时,所得ATO水性分散液的稳定性最好。

原位聚合制备PET/ATO纳米复合材料及其结晶行为

将锑掺杂二氧化锡(ATO)纳米颗粒均匀分散于乙二醇(EG)介质中,通过EG与对苯二甲酸(TPA)原位聚合制备了聚对苯二甲酸乙二酯(PET)/ATO纳米复合材料。利用SEM、DSC、XRD、FTIR和TGA等方法,研究了ATO在PET基体中的分散性、PET/ATO复合材料的结晶行为和热性能。利用原位聚合制备的PET/ATO复合材料,ATO颗粒在PET基体中分散均匀,尺寸100～150nm,纳米ATO颗粒的加入导致PET的特性粘数增大。在PET基体中,纳米ATO颗粒起到异相成核的作用,提高了PET的结晶速率和结晶度,减小了PET的晶粒尺寸,同时也使PET热稳定性提高。随着ATO含量增加,熔融纺丝得到的PET纤维的电阻下降。加入1%ATO的PET纤维的体积电阻率为4.9×109Ω·cm,具有很好的抗静电效果。