Whitesides George M, Kriebel Jennah K, Love J Christopher
Harvard University, Department of Chemistry and Chemical Biology, Cambridge, MA 02138-2902, USA.
Sci Prog. 2005;88(Pt 1):17-48. doi: 10.3184/003685005783238462.
The self-assembly of molecules into structurally organized monolayers (SAMs) uses the flexibility of organic chemistry and coordination chemistry to generate well-defined, synthetic surfaces with known molecular and macroscopic properties. The process of designing monolayers with a specified structure gives a high level of control over the molecular-level composition in the direction perpendicular to a surface; soft lithographic technique gives useful (if lower) resolution in the plane of the surface. Alkanethiolates adsorbed on gold, silver, mercury, palladium and platinum are currently the best-defined systems of SAMs. They provide substrates for a number of applications-from studies of wetting and electron transport to patterns for growing mammalian cells. SAMs have made organic surfaces a central part of surface science. Understanding the principles by which they form, and connecting molecular-level structure with macroscopic properties, opens a wide range of areas to study and exploitation.
分子自组装成结构有序的单分子层(SAMs)利用有机化学和配位化学的灵活性,生成具有已知分子和宏观性质的明确合成表面。设计具有特定结构的单分子层的过程能够高度控制垂直于表面方向上的分子水平组成;软光刻技术在表面平面上能提供有用(尽管较低)的分辨率。吸附在金、银、汞、钯和铂上的硫醇盐目前是定义最明确的SAMs体系。它们为许多应用提供了底物——从润湿性和电子传输研究到用于培养哺乳动物细胞的图案。SAMs已使有机表面成为表面科学的核心部分。理解它们形成的原理,并将分子水平结构与宏观性质联系起来,开辟了广泛的研究和开发领域。