Better biocompatibility of nitrogen‐doped graphene compared with graphene oxide by reducing cell autophagic flux blockage and cell apoptosis

Abstract: Nitrogen‐doped graphene (C2N), a novel graphene‐based materials, has been proposed as a potential alternative to graphene oxide (GO) in biomedical applications. However, due to the challenges in synthesizing C2N, reports in the biomedical field are currently rare. Here, we have modified the reported procedure and successfully synthesized C2N nanoparticles at 120°C, which we refer to as C2N‐120. The toxicity and biocompatibility of GO and C2N‐120 were evaluated using a mouse model injected with GO/C2N‐120 via t… Show more

“…In vitro, GO induced mitochondrial damage, oxidative stress, and cell apoptosis, while C 2 N-120 exhibited lower cytotoxicity. C 2 N-120 demonstrated higher biocompatibility than GO, suggesting potential biomedical applications . Gamma-irradiated reduced graphene oxide (rGO) induced toxicity in both in vitro (L929 cells) and in vivo ( Caenorhabditis elegans ) models.…”

“…C 2 N-120 demonstrated higher biocompatibility than GO, suggesting potential biomedical applications. 190 Gamma-irradiated reduced graphene oxide (rGO) induced toxicity in both in vitro (L929 cells) and in vivo (Caenorhabditis elegans) models. rGO-30 KGy showed cytotoxicity, elevated reactive oxygen species (ROS), lactate dehydrogenase (LDH) production, apoptosis, and altered cell morphology.…”

Recent Advances in Two-Dimensional Nanomaterials for Healthcare Monitoring

“…In vitro, GO induced mitochondrial damage, oxidative stress, and cell apoptosis, while C 2 N-120 exhibited lower cytotoxicity. C 2 N-120 demonstrated higher biocompatibility than GO, suggesting potential biomedical applications . Gamma-irradiated reduced graphene oxide (rGO) induced toxicity in both in vitro (L929 cells) and in vivo ( Caenorhabditis elegans ) models.…”

“…C 2 N-120 demonstrated higher biocompatibility than GO, suggesting potential biomedical applications. 190 Gamma-irradiated reduced graphene oxide (rGO) induced toxicity in both in vitro (L929 cells) and in vivo (Caenorhabditis elegans) models. rGO-30 KGy showed cytotoxicity, elevated reactive oxygen species (ROS), lactate dehydrogenase (LDH) production, apoptosis, and altered cell morphology.…”

Recent Advances in Two-Dimensional Nanomaterials for Healthcare Monitoring