Saflufenacil, a herbicide that inhibits protoporphyrinogen oxidase, has been reformulated as a microencapsulation for preemergence and postemergence applications to corn, with the primary purpose of the encapsulation to reduce the risk of corn injury from foliar applications. Field experiments on corn were conducted in 2023, 2024, and 2025 to evaluate the efficacy of encapsulated saflufenacil alone and in the formulated premixture with pyroxasulfone for residual broadleaf weed control and crop injury. Applications of encapsulated saflufenacil across a dose range resulted in incomplete control (less than 60%) of giant ragweed. Combinations of the encapsulated saflufenacil + pyroxasulfone premixture with atrazine were efficacious in controlling giant ragweed up to 28 d after planting (DAP), but efficacy declined sharply by 42 DAP. The reduced efficacy on giant ragweed was attributed to a lack of an activating rain for the encapsulated saflufenacil. Conversely, encapsulated saflufenacil applications, with or without pyroxasulfone, were highly efficacious (83% to 99% control) on waterhemp and common lambsquarters, two small-seeded broadleaf species. Furthermore, the most extensive weed control with encapsulated saflufenacil resulted from sequential applications (preemergence and postemergence) of a residual herbicide. Overall, encapsulated saflufenacil was effective in controlling small-seeded broadleaf weeds until a postemergence herbicide was applied. However, additional herbicides in a mixture may be needed to manage large-seeded broadleaf species such as giant ragweed. Regardless of the target species, management of problematic, herbicide-resistant weeds with encapsulated saflufenacil should focus on combinations with other effective herbicides in both preemergence and postemergence applications, in addition to other weed control tactics.