Introduction: As the size of electronic and magnetic devices decreases, nanoscale patterning becomes an increasingly important area of research. Two different approaches have been taken to pattern media: top-down methods such as lithography, and bottom-up methods such as self-assembly. Top-down assembly methods have the advantages of precision and accuracy, but are hard to scale for certain industrial applications due to their low throughput. Self-assembly methods are more easily scalable for applications requiring mass production. Thus, self-assembly has attracted attention and is an area of ongoing research for its potential to create high-throughput, periodic nanoscale patterns. Block copolymers are a class of commonly-studied materials for nanoscale selfassembly. Block copolymers are long molecules that consist of "blocks" of chemically differing polymers attached end-to-end. Under the right conditions, these blocks will phase separate, spontaneously forming periodic microdomains. Diblock copolymers, which have only two blocks, have been found to form a variety of well-ordered morphologies with nanoscale periodicity ...
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