简介:【中文摘要】 研究和开发利用扫描隧道显微镜(STM)对材料进行纳米尺度加工的功能,藉助于STM针尖和样品之间的强电场在金属有机络合物Ag TCNQ薄膜表面构建了纳米点、纳米点阵和纳米线等纳米结构。伏安(I U)特性曲线和扫描隧道的测试表明,在针尖简介:【中文摘要】 研究和开发利用扫描隧道显微镜(STM)对材料进行纳米尺度加工的功能,藉助于STM针尖和样品之间的强电场在金属有机络合物Ag TCNQ薄膜表面构建了纳米点、纳米点阵和纳米线等纳米结构。伏安(I U)特性曲线和扫描隧道的测试表明,在针尖强场作用后材料表面的局域电子态密度迅速增大,在电学上由高阻态转变为低阻态,这种效应可能归因于金属原子和有机分子之间的电荷转移。这些纳米结构展示了用作高密度存储器和纳米导线的可能性,有机导电材料将是未来纳米电子材料的理想候选者,而STM则将成为纳米电子学微细加工的有力工具。
【英文摘要】 We have studied and developed processing functions of materials in nanoscale using the scanning tunneling microscope (STM). Under the strong electrical field nanodot, nanodot array and nanoline were fabricated on surfaces of the metalorganic AgTCNQ films. Tests of the IU characteristic and the scanning tunneling spectrum (STS) showed that the local density of electronic states (LDOS) on the material surface increased rapidly after the interaction of the STM tip's strong field and it led to an electri...详细>