1) LB film
LB薄膜
1.
The surface potential of Polyimide (PI) LB films with different thicknesses contacting with gold was measured and the space charge density was analyzed.
为提高有机电子器件的性能 ,制备了不同厚度的聚酰亚胺 (PI)LB薄膜 。
2.
The LB films were characterized by UV-visible spectrum, BAM microscope and AFM method.
采用AFM、UV-vis方法,研究了不同工艺条件对金属卟啉LB薄膜光谱特性的影响。
2) LB films
LB薄膜
1.
Stilbazium iodic (Symboled as S) has high β value and has been used to prepare LB films, but the deposition properties of S and the stabilities of S-Lb films are very poor.
具有优良NLO性质的芪唑盐(记为S)已被用于制备LB薄膜,但其成膜性不好,稳定性差;S和花生酸镉(记为A)的混合系虽可改善成膜性,但在此混合膜系中,S相的稳定性仍然不佳。
3) Langmuir Blodgett(LB)film
Langmuir-Blodget(LB)薄膜
4) LB films (ordered ultrathin organized molecular films)
LB膜(有序组装超薄膜)
5) Langmuir-Blodgett film
LB膜
1.
Application of Modern New Physical Techniques and Methods in the Structure and Functions of Langmuir-Blodgett Films;
生物物理新技术新方法在LB膜结构与功能研究中的应用
2.
Four kinds of hybrid organic/inorganic Langmuir-Blodgett films are obtained by the compact organization of poly(1,2-dihydro-2,2,4-trimethyl)quinoline (briefed as PQ), stearic acid (briefed as SA) and transition metal-substituted heteropolyanions (briefed as PW_(11)Z, Z=Cu~(II),Co~(II),Mn~(II),Ni~(II))using the Langmuir-Blodgett technique.
将聚喹啉(PQ)、十八酸(SA)和过渡金属取代的杂多阴离子PW11ZO40n-(Z=CuII,CoII,MnII,NiII)通过LB技术掺杂,成功地制备了四种PQ/SA/杂多阴离子杂化LB膜,通过π-A曲线、荧光、吸收光谱、原子力显微镜等手段对PQ/SA/杂多阴离子杂化LB膜的成膜方式、性能、结构及形貌进行了表征。
3.
Studies on the biomineralization of calcium oxalate crystals were performed in vitro using monolayer film and Langmuir-Blodgett film as templet.
以单分子膜和LB膜作为模板,用SEM,ESEM,TEM,AFM,XRD和FT-IR等表征方法,在体外研究了草酸钙晶体的生物矿化过程。
6) Langmuir-Blodgett films
LB膜
1.
The Spectroscopic and Electrochemical Study of Langmuir-Blodgett Films of Heme;
血红素LB膜的光谱及电化学特性研究
2.
Deposition of Langmuir-blodgett films and the aggregative properties of two asymmetric substituted naphthalocyanine derivatives were investigated by using linear absorption spectra and surface pressure-area (π-A) isotherm lines.
研究了两种不对称取代萘酞菁化合物LB膜的制备,并采用线性吸收谱研究了萘酞菁化合物在溶液和LB膜中的聚集特性。
补充资料:amanil fast turquoise lb
CAS:1330-38-7
分子式:C32H14CuN8O6S2·2Na
中文名称:直接耐晒翠蓝GL;锡利翠蓝GL;直接耐晒宝石蓝;直接耐晒翠蓝GB;直接耐晒翠GL
英文名称:C.I. Direct blue 86; Direct fast turquoise blue GL;acid blue 87; aizen primula turquoise blue gl; amafast turquoise 8ggl; amanil fast turquoise; amanil fast turquoise lb; arlazol fast turquoise blue 6gn; atlantic fast turquoise lga
性状描述:蓝色粉状物,能溶于水。在浓硫酸中呈黄光绿色,稀释后呈绿蓝色,有蓝绿色沉淀。对纤维素纤维染色,染料吸尽性差。对铁离子有反应。
生产方法:以铜酞菁蓝(CuPC)为原料,用氯磺酸进行氯磺化,用冰水稀释,析出铜酞菁磺酰氯,过滤,用氨水中和,加温脱氨。而后经盐析;过滤及干燥而得。
公斤/吨,从合成铜酞菁开始)苯酐(100%) 360 盐酸(31%) 125 氯磺酸(98%) 2000 烧碱(100%) 160 尿素(工业) 510 氨水(20%) 315 氯化亚铜(98%) 70 精盐 650 钼酸铵(98%) 4 磷酸三丁酯(100%)0.2 三氯化苯(100%) 125
用途:主要用于棉、粘胶、蚕丝等织物的染色和印花。
分子式:C32H14CuN8O6S2·2Na
中文名称:直接耐晒翠蓝GL;锡利翠蓝GL;直接耐晒宝石蓝;直接耐晒翠蓝GB;直接耐晒翠GL
英文名称:C.I. Direct blue 86; Direct fast turquoise blue GL;acid blue 87; aizen primula turquoise blue gl; amafast turquoise 8ggl; amanil fast turquoise; amanil fast turquoise lb; arlazol fast turquoise blue 6gn; atlantic fast turquoise lga
性状描述:蓝色粉状物,能溶于水。在浓硫酸中呈黄光绿色,稀释后呈绿蓝色,有蓝绿色沉淀。对纤维素纤维染色,染料吸尽性差。对铁离子有反应。
生产方法:以铜酞菁蓝(CuPC)为原料,用氯磺酸进行氯磺化,用冰水稀释,析出铜酞菁磺酰氯,过滤,用氨水中和,加温脱氨。而后经盐析;过滤及干燥而得。
公斤/吨,从合成铜酞菁开始)苯酐(100%) 360 盐酸(31%) 125 氯磺酸(98%) 2000 烧碱(100%) 160 尿素(工业) 510 氨水(20%) 315 氯化亚铜(98%) 70 精盐 650 钼酸铵(98%) 4 磷酸三丁酯(100%)0.2 三氯化苯(100%) 125
用途:主要用于棉、粘胶、蚕丝等织物的染色和印花。
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