——您现在访问的是:上海盐雾试验设备工作原理,北京环试设备测试,广东PI膜拉伸试验机测试,江苏摇床
  • Mauris feugiat elit sed elit consequat massa nunc

    Etiam porttitor aliquet nunc, non pulvinar nulla placerat et. Ut ipsum sapien, iaculis nec aliquet vel, pretium id mauris. Cras aliquet magna in eros mattis eu gravida urna fermentum.

  • Proin vel neque vel leo pulvinar tempor vitae sed

    Etiam porttitor aliquet nunc, non pulvinar nulla placerat et. Ut ipsum sapien, iaculis nec aliquet vel, pretium id mauris. Cras aliquet magna in eros mattis eu gravida urna fermentum.

  • Maecenas ultrices, est vel aliquam luctus posuere

    Etiam porttitor aliquet nunc, non pulvinar nulla placerat et. Ut ipsum sapien, iaculis nec aliquet vel, pretium id mauris. Cras aliquet magna in eros mattis eu gravida urna fermentum.

  • Cras dictum enim vitae urna auctor feugiat

    Etiam porttitor aliquet nunc, non pulvinar nulla placerat et. Ut ipsum sapien, iaculis nec aliquet vel, pretium id mauris. Cras aliquet magna in eros mattis eu gravida urna fermentum.

高温试验箱国内知名厂家

X射线光电子能谱(XPS)来表征并确认硅纳米线接口(图2,B到d,而图S1)的逐步修饰。观察到对于HS-硅纳米线(图2,B及C)从所述硫醇S组2S的两个新的特征峰和2p电子,这表明初始硅烷化反应是成功的。与二硫化物接头OPSS-PEG-NH 2处理HS-硅纳米线之后,一个新的Nls电子峰中观察到(图2,B和d),这证实了接头末端胺基团的存在。当孵育H2N-硅纳米线与Tz的磺基-NHS酯中,N 1s峰的强度显着增加,这与Tz的基序中的氮含量是一致的。在将C 1s和N 1S区域去卷积的X射线光电子谱的进一步分析证实硅纳米线的表面上(见图S2)上的接合结构。

Learn more

高低温试验箱厂家怎么样

客户见证

在wkrn。com/alerts上查看最新的天气预报