Density Multiplication and Improved Lithography by Directed Block Copolymer Assembly
University of Wisconsin–Madison · Hitachi Global Storage Technologies (United States)
Abstract
Self-assembling materials spontaneously form structures at length scales of interest in nanotechnology. In the particular case of block copolymers, the thermodynamic driving forces for self-assembly are small, and low-energy defects can get easily trapped. We directed the assembly of defect-free arrays of isolated block copolymer domains at densities up to 1 terabit per square inch on chemically patterned surfaces. In comparing the assembled structures to the chemical pattern, the density is increased by a factor of four, the size is reduced by a factor of two, and the dimensional uniformity is vastly improved.
Citation impact
- FWCI
- 42.72
- Percentile
- 100%
- References
- 27
Authors
8- RRRicardo RuizCorresponding
University of Wisconsin–Madison, Hitachi Global Storage Technologies (United States)
- HKHuiman Kang
University of Wisconsin–Madison, Hitachi Global Storage Technologies (United States)
- FDFrançois Detcheverry
University of Wisconsin–Madison, Hitachi Global Storage Technologies (United States)
- EAE. A. Dobisz
University of Wisconsin–Madison, Hitachi Global Storage Technologies (United States)
- DKDan Kercher
University of Wisconsin–Madison, Hitachi Global Storage Technologies (United States)
Topics & keywords
- Copolymer
- Lithography
- Materials science
- Block (permutation group theory)
- Self-assembly
- Nanotechnology
- Terabit
- Polymer
- Affordable and clean energy