Park Sang-Min, Park Oun-Ho, Cheng Joy Y, Rettner Charles T, Kim Ho-Cheol
IBM Almaden Research Center, 650 Harry Road, San Jose, CA 95120, USA.
Nanotechnology. 2008 Nov 12;19(45):455304. doi: 10.1088/0957-4484/19/45/455304. Epub 2008 Oct 8.
We report the formation and directed self-assembly of sub-10 nm half-pitch line patterns from lamellar microdomains of a block copolymer hybrid. The hybrid, which is a mixture of poly(styrene-b-ethylene oxide) (PS-b-PEO) and a low molecular weight organosilicate (OS), shows strong segregation between two phases (i.e. PS and PEO+OS) and forms lamellar microdomains of down to approximately 7 nm in half-pitch. Patterns applicable to multifinger device layouts are created by self-assembling the hybrid on topographic pre-patterns with a chemically non-selective surface. With careful design of the guiding topographic pattern geometry, well-controlled lateral placement including bent structures of lamellar microdomains can be obtained by this approach.
我们报道了由嵌段共聚物杂化物的层状微区形成并定向自组装出亚10纳米半间距线图案。该杂化物是聚(苯乙烯-嵌段-环氧乙烷)(PS-b-PEO)与低分子量有机硅酸盐(OS)的混合物,在两相(即PS和PEO+OS)之间表现出强烈的相分离,并形成半间距低至约7纳米的层状微区。通过在具有化学非选择性表面的形貌预图案上自组装该杂化物,可创建适用于多指器件布局的图案。通过精心设计引导形貌图案的几何形状,利用这种方法可以获得包括层状微区弯曲结构在内的良好控制的横向排列。
