Molecule:100618: Difference between revisions
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molecule
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|moleculeKey=RHQDFWAXVIIEBN-UHFFFAOYSA-N | |moleculeKey=RHQDFWAXVIIEBN-UHFFFAOYSA-N | ||
|molOrRxn= | |molOrRxn= | ||
|smiles= | -INDIGO-12132211472D | ||
|inchi= | |||
0 0 0 0 0 0 0 0 0 0 0 V3000 | |||
M V30 BEGIN CTAB | |||
M V30 COUNTS 6 5 0 0 0 | |||
M V30 BEGIN ATOM | |||
M V30 1 C 6.82192 -5.03421 0.0 0 | |||
M V30 2 O 7.81584 -5.20252 0.0 0 | |||
M V30 3 C 6.18635 -5.79969 0.0 0 | |||
M V30 4 F 5.41792 -5.15324 0.0 0 | |||
M V30 5 F 5.55273 -6.56115 0.0 0 | |||
M V30 6 F 6.96078 -6.43583 0.0 0 | |||
M V30 END ATOM | |||
M V30 BEGIN BOND | |||
M V30 1 1 1 2 | |||
M V30 2 1 1 3 | |||
M V30 3 1 3 4 | |||
M V30 4 1 3 5 | |||
M V30 5 1 3 6 | |||
M V30 END BOND | |||
M V30 END CTAB | |||
M END | |||
|smiles=C(C(F)(F)F)O | |||
|inchi=1S/C2H3F3O/c3-2(4,5)1-6/h6H,1H2 | |||
|inchikey=RHQDFWAXVIIEBN-UHFFFAOYSA-N | |inchikey=RHQDFWAXVIIEBN-UHFFFAOYSA-N | ||
|width=300px | |width=300px | ||
|height= | |height=200px | ||
|float=none | |float=none | ||
|parent= | |parent= | ||
}} | }} | ||
Revision as of 09:08, 7 July 2023
| Properties | |
|---|---|
| CID | 6409 |
| CAS | 75-89-8 |
| IUPAC-Name | 2,2,2-tris(fluoranyl)ethanol |
| Abbreviation | TFE |
| Trivialname | 222-trifluoroethanol |
| Exact mass | 100.01359920 |
| Molecular formula | C2H3F3O |
| LogP | 0.4 |
| Has vendors | true |
| Molecular role | n/a |
| Synonyms | 222-trifluoroethanol,trifluoroethanol,ethanol 222-trifluoro-,trifluoro ethanol,222-trifluoroethyl alcohol,trifluoroethyl alcohol,222-trifluoroethan-1-ol,fluorinol 85,tfetoh,tfe |
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Molecule is used on following pages
publication
- Phenoxazine-Sensitized CO2-to-CO Reduction with an Iron Porphyrin Catalyst: A Redox Properties-Catalytic Performance Study
- Visible-Light-Driven Conversion of CO2 to CH4 with an Organic Sensitizer and an Iron Porphyrin Catalyst
- Toward Visible-Light Photochemical CO2‑to-CH4 Conversion in Aqueous Solutions Using Sensitized Molecular Catalysis
- Exchange Coupling Determines Metal-Dependent Efficiency for Iron- and Cobalt-Catalyzed Photochemical CO2 Reduction
investigation
- Exchange Coupling Determines Metal-Dependent Efficiency for Iron- and Cobalt-Catalyzed Photochemical CO2 Reduction/Results obtained with Co2+ catalyst
- Exchange Coupling Determines Metal-Dependent Efficiency for Iron- and Cobalt-Catalyzed Photochemical CO2 Reduction/results CO2+ experiments
- Exchange Coupling Determines Metal-Dependent Efficiency for Iron- and Cobalt-Catalyzed Photochemical CO2 Reduction/CO2+ results from SI
- Exchange Coupling Determines Metal-Dependent Efficiency for Iron- and Cobalt-Catalyzed Photochemical CO2 Reduction/Results Co2+ experiments taken from SI
