 This theoretical study shows that dissipative processes in solid-state light emitters, such as semiconductor quantum dots, can enhance coherent quantum optical effects, allowing for regular collapse and revival patterns, even in the presence of an incoherent phonon bath. The results deviate significantly from the well-known atomic Jane's Cummings model and suggest a deliberate design of photon quantum effects via specifically engineered solid-state environments. This article was authored by Alexander Carmely, Andreas Norr, and Frank Mild.