Table 1. Various Applications of Graphene Oxide.
| Catalyst in different reactions | Reactions | |
|---|---|---|
| Synthesis of primary amides from aromatic aldehydes | (9) | |
| Hydrogen generation from formate | (10) | |
| Kabachnik–Fields reaction | (11) | |
| Glycosylation reactions | (12) | |
| Green synthesis of propargylamines | (13) | |
| Henry reaction | (14) | |
| Tissue engineering | Different scaffolds | |
|---|---|---|
| Bone | GO–calcium phosphate nanocomposites | (15) |
| GO-based tricomponent scaffolds | (16) | |
| GO–hydroxyapatite/silk fibroin | (17) | |
| Neural | GO microfiber | (18) |
| GO–PLGA hybrid nanofiber | (19) | |
| GO foam (GOF) based 3D scaffold | (20) | |
| Cartilage | Chitosan/PVA/GO polymer nanofiber | (21) |
| GO–PLGA hybrid microparticles | (22) | |
| GO-containing chitosan scaffolds | (23) | |
| Skin | PEGylated GO-mediated quercetin-hybrid scaffold | (24) |
| GO–genipin | (25) | |
| Chitosan–PV–GO nanocomposite scaffold | (26) | |
| Dentistry | Sodium titanate with GO | (27) |
| GO–titanium–silver scaffold | (28) | |
| GO-copper-coated CaP nanocomposite | (29) | |
| Photocatalytic reactions | Reactions | |
|---|---|---|
| Degradation of organic compounds | Degradation of amoxicillin | (30) |
| Degradation of methylene blue | (31) | |
| Degradation of gaseous benzene | (32) | |
| Water splitting | S,N-codoped GO quantum dots | (33) |
| Copper phthalocyanine@GO/TiO2 | (34) | |
| GO–CdS–Pt nanocomposite | (35) | |
| CO2 reduction | rod-like TiO2–rGO composite aerogels | (36) |
| CsPbBr3 QD/GO | (37) | |
| Ag2CrO4/g-C3N4/GO | (38) | |