1) phosphate anodizing
磷酸阳极氧化法
2) phosphate anodization
磷酸阳极氧化
3) anodization
阳极氧化法
1.
The methods including anodization process,templated-based approaches and hydrothermal synthesis for preparing one-dimensional TiO_2 nanomaterials and their highly-ordered nanoarrays are systematically reviewed.
本文对合成TiO2一维纳米材料及其有序纳米阵列的阳极氧化法、模板法以及水热法进行了全面而系统的评述,着重介绍了它们的最新研究进展。
2.
Cerium-doped TiO_2/Ti photoelectrodes were prepared by anodization.
采用阳极氧化法制备铈掺杂TiO_2/Ti光电极,用SEM、XRD、XRF、XPS和UV/VIS/NIR对光电极的性能进行表征,并对其可见光照射下的光电催化性能进行了测试。
3.
With the CVD methods,large scale and great aligned carbon nanotubes and ensembles are achieved in the pores of Al 2O 3 templates which were made using anodization.
在阳极氧化法制备的多孔Al2O3膜板上用CVD技术制备出了大面积且高度取向的碳纳米管及阵列,用透射电镜(TEM)和扫描电镜(SEM)观察了碳纳米管阵列的表面形貌和单根碳纳米管的精细结构。
4) anodic oxidation
阳极氧化法
1.
Electrchemical anodic oxidation method were used to systhesize a novel graphite intercalation compounds──NH4NO3-GICs,and its microstructure has also been studied.
对新型石墨层间化合物材料(NH4NO3-GICs)进行了电化学阳极氧化法合成研究,并对其微观形貌、结构等方面进行了研究。
2.
A porous silicon thin layer was prepared by anodic oxidation under different corrosion conditionEmails.
用阳极氧化法按不同腐蚀条件制备的多孔硅,其薄层厚度仅为几十纳米,远小于22Na源的正电子平均射程。
3.
Nanoscale porous silicon(PS) was prepared by anodic oxidation,cathode reduction and surface treatment technique.
对采用阳极氧化法及阴极还原表面处理技术制备的性能稳定的纳米多孔硅,用原子力显微镜(AFM)表征了其微观结构,多孔硅颗粒粒径在30 nm左右。
5) anodic oxidation method
阳极氧化法
1.
Alumina oxide films prepared by anodic oxidation method are amorphous and have highly ordered pore structures.
利用阳极氧化法制备的氧化铝薄膜是非晶态的并且表面呈高度有序的多孔结构。
2.
WOx-TiO2 /Ti ceramic membrane was fabricated on Ti substrate surface by anodic oxidation method through adding Na2WO4 to H2SO4 electrdyte solution.
用阳极氧化法,通过向H2SO4电解质溶液中添加钨酸钠,在基体钛表面原位生成复合WOx-TiO2/Ti陶瓷膜。
3.
Aluminum oxide templates were prepared by anodic oxidation method in the solution of H_2SO_4 and H_2C_2O_4.
采用阳极氧化法,以硫酸和草酸为电解液制备了纳米氧化铝模板。
6) anodic pickling
阳极除氧化膜法,阳极酸洗
补充资料:磷酸阳极氧化
分子式:
CAS号:
性质:铝及铝合金在磷酸溶液中,在直流电的作用下,被黏结件(阳极)表面上形成氧化膜层,它黏结性好于铬酸阳极氧化得到的氧化膜。粘黏复合材料时可作为黏结表面层。
CAS号:
性质:铝及铝合金在磷酸溶液中,在直流电的作用下,被黏结件(阳极)表面上形成氧化膜层,它黏结性好于铬酸阳极氧化得到的氧化膜。粘黏复合材料时可作为黏结表面层。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条