Graphdiyne oxide elicits a minor foreign-body response and generates quantum dots due to fast degradation.

Graphdiyne (GDY) is a novel two-dimensional (2D) carbon allotrope that has attracted much attention in materials, physics, chemistry, and microelectronics for its excellent properties. Much effort has been devoted to exploring the biomedical applications of GDY in 2D carbon nanomaterials, especially for smart drugs and gene delivery. However, few studies have focused on the biocompatibility and potential environmental hazards of GDY and its derivatives. In this study, graphdiyne oxide (GDYO) and graphene oxide (GO) were obtained using different oxidation methods. Their cytotoxicity and hemolysis in vitro and biocompatibility in subcutaneous and peritoneal locations in vivo were compared. GDYO had very low biotoxicity in vitro and was moderately biocompatible in the muscle and abdominal cavity in vivo. Highly oxidized products and graphdiyne quantum dots (GDQDs) were observed in peritoneal cells. GDYO had better biocompatibility and its sheet size was easily diminished through oxidative degradation. Therefore, GDYO is a good candidate for use in 2D carbon nanomaterials in biomedicine. [Display omitted] • Graphdiyne oxide and graphene oxide show similar biological cytotoxicity. • Graphdiyne oxide has advantages of biocompatibility and environmental safety. • Graphdiyne oxide is more susceptible to be oxidized and degraded. • Graphdiyne oxide can be converted into quantum dots easily. [ABSTRACT FROM AUTHOR]