Discrete Block Copolymers: Precision Engineering on Multiple Length Scales
Zhanhui Gan, Xue‐Hui Dong
Abstract
The emergence of precision block copolymers, featuring exact chemical structures and uniform chain lengths, marks a significant advancement in polymer science. These exquisite macromolecules afford unprecedented resolution for elucidating fundamental principles and clarifying intricate sequence–structure–property correlations that have long been obscured by inherent molecular defects. This Perspective highlights recent developments in the field, with an emphasis on molecular design and hierarchical structural engineering across multiple length scales, from monomer selection and local feature design to chain architecture, intrachain symmetry, and interchain dispersity. Advances in synthetic methodologies enable meticulous control over chemical structures, allowing researchers to target specific molecular attributes rather than relying on average quantities, such as average molecular weight or overall composition. This paradigm shift is expected to pave the way for polymer design with ever-increasing molecular complexity and expand the spectrum of their potential functionalities.