Consecutive Complex Aggregation Pathway in Covalent Helical Polymer‐Metal Complexes: Nanospheres with Controlled P/M Macroscopic Chirality

Abstract Kinetically trapped and thermodynamic nanospheres with opposite macroscopic P / M chirality and opposite circularly polarized luminescence (CPL) can be obtained from a single helical polymer‐metal complex under the same environmental conditions. To prepare these nanospheres, a chiral poly(diphenylacetylene) (PDPA) [poly‐( L )‐ 1 ] with a large energy barrier between the P and M helical senses is chosen as source of chirality, while Ba 2+ metal ions are selected as crosslinking agents. As a result, the poly‐( L )‐ 1 /Ba 2+ complex can generate both kinetically trapped (Agg 1, M nanospheres) and thermodynamic (Agg 2, P nanospheres) aggregates, which can be dispersed in the same solvent. Due to the high energy barrier of the helix inversion process for poly‐( L )‐ 1, the complete evolution from the kinetically trapped aggregate (Agg 1, M nanospheres) to the thermodynamic one (Agg 2, P nanospheres) takes more than 75 days at room temperature, which can be accelerated at higher temperatures. These nanospheres are stable and remain dispersed in solution for up to 8 months without further aggregation.