Block Copolymer Lithography: Periodic Arrays of ~10 11 Holes in 1 Square Centimeter
- 30 May 1997
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 276 (5317) , 1401-1404
- https://doi.org/10.1126/science.276.5317.1401
Abstract
Dense periodic arrays of holes and dots have been fabricated in a silicon nitride–coated silicon wafer. The holes are 20 nanometers across, 40 nanometers apart, and hexagonally ordered with a polygrain structure that has an average grain size of 10 by 10. Spin-coated diblock copolymer thin films with well-ordered spherical or cylindrical microdomains were used as the templates. The microdomain patterns were transferred directly to the underlying silicon nitride layer by two complementary techniques that resulted in opposite tones of the patterns. This process opens a route for nanometer-scale surface patterning by means of spontaneous self-assembly in synthetic materials on length scales that are difficult to obtain by standard semiconductor lithography techniques.Keywords
This publication has 19 references indexed in Scilit:
- Local Control of Microdomain Orientation in Diblock Copolymer Thin Films with Electric FieldsScience, 1996
- Role of the C-10 Substituent in Mitomycin C-1−DNA BondingJournal of the American Chemical Society, 1996
- Ordered Metal Nanohole Arrays Made by a Two-Step Replication of Honeycomb Structures of Anodic AluminaScience, 1995
- DNA electrodiffusion in a 2D array of postsPhysical Review Letters, 1994
- DNA electrophoresis in microlithographic arraysNature, 1992
- Molecular Self-Assembly and Nanochemistry: a Chemical Strategy for the Synthesis of NanostructuresScience, 1991
- Electron pinball and commensurate orbits in a periodic array of scatterersPhysical Review Letters, 1991
- Block Copolymer Thermodynamics: Theory and ExperimentAnnual Review of Physical Chemistry, 1990
- Quantized Hall Conductance in a Two-Dimensional Periodic PotentialPhysical Review Letters, 1982
- Energy levels and wave functions of Bloch electrons in rational and irrational magnetic fieldsPhysical Review B, 1976