Description | Insoluble small gap fullerenes can be extracted into organic solvents by simple chemical redox process. |
Molecular Weight | 912.81 |
Molecular Formula | Linear Formula C60(C8H15NO2)x |
Canonical SMILES | C=1=C2c3c4C=1c5c6c7c8c9c%10c%11c%12c%13C%14=[C]%10=C%15c%16c%17c%14c%18c%13c%19c%20c%12c%21c%11c(c%22c%23c%24c(C2=[C]7%15%22)c%25c3c%26c%27c4c%28c5c(c6%16)c%29c%17c%30c%18c%31c%19c%32c%20c(c%21%23)c%33c%24c%34c%25c%26c%35c%36c%27c%28c%29c%37c%30c%31c%38c%32c%33c%34c%35c%38c%36%37)c89 |
InChI | 1S/C |
InChI Key | OKTJSMMVPCPJKN-UHFFFAOYSA-N |
Boiling Point | 500-600 °C (lit.) |
Melting Point | >400 °C |
Flash Point | Not applicable |
Solubility | organic solvents: soluble |
Appearance | granular |
Application | Small gap fullerenes can be used as doping agents on polyaniline (PANI) for organic electronics applications. |
Storage | room temp |
Composition | fullerenes, ≥80% |
Form | granular |
MDL Number | MFCD00282904 |
NACRES | NA.23 |
Packaging | 1 g in glass bottle |
Quality Level | 200 |