Surface cracks could improve the optical and photoelectronic properties of crystalline materials as they increase specific surface area, but the controlled self-assembly of fullerene (C ) molecules into micro-/nanostructures with surface cracks is still challenging. Herein, we report the morphology engineering of novel C microstructures bearing surface cracks for the first time, selecting phenetole and propan-1-ol (NPA) as good and poor solvents, respectively. Our systematic investigations reveal that phenetole molecules initially participate in the formation of the ends of the C microstructures, and then NPA molecules are involved in the gradual growth of the sidewalls of the microstructures. Therefore, the surface cracks of C microstructures can be finely regulated by adjusting the addition of NPA and the crystallization time. Interestingly, the cracked C microstructures show superior photoluminescence properties relative to the smooth microstructures due to the increased specific surface area. In addition, C microstructures with wide cracks show preferential recognition of silica particles over C particles owing to electrostatic interactions between the negatively charged C microstructures and the positively charged silica microparticles. These C crystals with surface cracks have potential applications from optoelectronics to biology.
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