| ref | material | size | size err | size unit | size type | size comment | BET | b nanozyme | b 10n | b unit | specific act | sa 10n | sa unit | comment | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 7879 | 662 | g-C3N4 | nm | SEM | The SEM images in Fig. 4 show the morphological and structural differences between PCN and CCN. PCN exhibited a fluffy-like structure with a small and irregular dense-texture as compared to CCN texture. These fluffy nanosheets were connected in such a way that they have left a small hollow space between them. In comparison, CCN exhibited a uniform surface texture, and g-C3N4 crystalline sheets were looked like large-sized aggregates. | 89.9,11.8 | A summary of the comparison of the specific surface area (SBET), total pore volume, and pore width of PCN and CCN are listed in Table 2. PCN exhibited greater SBET (89.9 m2/g) than that of CCN (11.8 m2/g). This enlarged surface area can be attributed to porous, thin, and curled nanosheets in fluffy PCN as compared to crystallized, planar, and large layered nanosheets of CCN. | ||||||||
| 7895 | 678 | g-C3N4 | 200 | nm | TEM | TEM (Fig. S2A) and DLS (Fig. S2E) indicate that g-C3N4 nanosheets are nanoflakes with an average size of 200 nm. |
| ref | material | enzyme type | substrate | pH | T | km | km err | km 10n | km unit | vmax | vmax err | vmax 10n | vmax unit | kcat | kcat err | kcat 10n | kcat unit | kcat/km | kcat/km 10n | kcat/km unit | comment | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 5932 | 40 | g-C3N4 | OXD | TMB | 0.31 | mM | 14.49 | -8 | M/s | 40 | 40 | |||||||||||
| 5933 | 40 | g-C3N4 | POD | H2O2 | 2.11 | mM | 8.79 | -8 | M/s | 40 | 40 | |||||||||||
| 6573 | 678 | g-C3N4 | 678 | |||||||||||||||||||
| 6544 | 662 | g-C3N4 | POD | 0.159 | mM | 1.3 | -8 | M/s | 662 |
| ref | material | application | target | method | linear range | linear ran unit | LOD | lod unit | recovery | comment | |
|---|---|---|---|---|---|---|---|---|---|---|---|
| 5608 | 678 | g-C3N4 | analyzing biological fluids. | Fluor | 1 | μM | |||||
| 5591 | 662 | g-C3N4 | detection of H2O2 | H2O2 | Fluor | 90-2500 | nM | 73 | nM |
| ref | title | DOI | material type | comment | |
|---|---|---|---|---|---|
| 3848 | 662 | Graphitic carbon nitride for efficient fluorometric quenching bioassay of hydrogen peroxide: Effect of structure on Properties | https://doi.org/10.1016/j.jphotochem.2020.112731 | Carbon | So, metal-free nanostructures of g-C3N4 were synthesized and characterized through different techniques. |
| 3864 | 678 | A triple-channel sensing array for protein discrimination based on multi-photoresponsive gC 3 N 4 | https://doi.org/10.1007/s00604-020-04396-3 | Carbon | In this work, therefore, a novel three-dimensional optosensing device based on the g-C3N4 nanosheets is constructed for rapid and sensitive discrimination and identification of proteins (Scheme 1). |