To address key concerns on solid-state pyrene-based luminescent materials, we propose a novel and efficient mechanical bond strategy. This strategy results in a transformation from aggregation-caused quenching (ACQ) to aggregation-induced emission (AIE) effect and a remarkable enhancement of pyrene emission in the solid state. More importantly, an unusual purification of emission is also achieved. Through computational calculation and experimental characterization, finally determined by X-ray diffraction analysis, we prove that the excellent emissions result from the refined molecular arrangements, including reduced π-π stacking, well-ordered packing and enhanced structural stability. This work demonstrates the potential of mechanical bond in the field of organic luminescent molecules, providing a new avenue for developing high-performance organic luminescent materials and beyond.