Highly ordered Si nanotube (SiNT) arrays with controllable pore diameters, lengths and wall thicknesses have been prepared by a multi-step template replication and CVD approach. We chose cytochrome c
Highly ordered Si nanotube (SiNT) arrays with controllable pore diameters, lengths and wall thicknesses have been prepared by a multi-step template replication and CVD approach. We chose cytochrome c
The ability to synthetically tune the structure, size, and shape of inorganic materials is an important goal in current material synthesis and device fabrication at the mesocale. Micro- and nanostruct
The ability to synthetically tune the structure, size, and shape of inorganic materials is an important goal in current material synthesis and device fabrication at the mesocale. Micro- and nanostruct
Hierarchical assembly and growth of one-dimensional nanostructures is essential for the success of bottom-up approaches toward future nanodevices.[1] In recent years, we have demonstrated that a varie
Hierarchical assembly and growth of one-dimensional nanostructures is essential for the success of bottom-up approaches toward future nanodevices.[1] In recent years, we have demonstrated that a varie
制备了一种含肉桂酸基团的Bola型两亲分子HDC(4-(10-羟基癸氧基)-10-羟基癸氧基肉桂酸酯).该分子在空气/水界面形成多分子层Langm uir膜结构.紫外光照可使膜中H D C 分子发生光致二聚,也可使H D C与1,16-十六碳二醇形成的混和膜中HDC ...
详细信息
制备了一种含肉桂酸基团的Bola型两亲分子HDC(4-(10-羟基癸氧基)-10-羟基癸氧基肉桂酸酯).该分子在空气/水界面形成多分子层Langm uir膜结构.紫外光照可使膜中H D C 分子发生光致二聚,也可使H D C与1,16-十六碳二醇形成的混和膜中HDC 分子发生二聚.光照前后膜中分子倾角分别为58.8°和53.2°.从实验结果推测了分子排列模型,认为HDC 分子在LB膜中有序排列,这来源于分子间π-π相互作用和疏水亚甲基链的Z 型构象堆积.
暂无评论