Molecule:100529: Difference between revisions
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molecule
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|cid=6228 | |cid=6228 | ||
|iupacName=n,n-dimethylmethanamide | |iupacName=n,n-dimethylmethanamide | ||
|molecularMass=73. | |molecularMass=73.052763847 | ||
|logP=-1 | |logP=-1 | ||
|synonyms=nn-dimethylformamide,dimethylformamide,nn-dimethylmethanamide,dimethyl formamide,n-formyldimethylamine,formamide nn-dimethyl-,dimethylformamid,dmf,dimetilformamide,dwumetyloformamid | |synonyms=nn-dimethylformamide,dimethylformamide,nn-dimethylmethanamide,dimethyl formamide,n-formyldimethylamine,formamide nn-dimethyl-,dimethylformamid,dmf,dimetilformamide,dwumetyloformamid | ||
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|hasVendors=true | |hasVendors=true | ||
|moleculeKey=ZMXDDKWLCZADIW-UHFFFAOYSA-N | |moleculeKey=ZMXDDKWLCZADIW-UHFFFAOYSA-N | ||
|molOrRxn=-INDIGO-10182215412D | |molOrRxn= | ||
-INDIGO-10182215412D | |||
0 0 0 0 0 0 0 0 0 0 0 V3000 | 0 0 0 0 0 0 0 0 0 0 0 V3000 | ||
| Line 34: | Line 35: | ||
|inchikey=ZMXDDKWLCZADIW-UHFFFAOYSA-N | |inchikey=ZMXDDKWLCZADIW-UHFFFAOYSA-N | ||
|width=300px | |width=300px | ||
|height= | |height=200px | ||
|float=none | |float=none | ||
|molecularFormula=C<sub>3</sub>H<sub>7</sub>NO | |molecularFormula=C<sub>3</sub>H<sub>7</sub>NO | ||
|parent= | |||
}} | }} | ||
Revision as of 14:32, 11 July 2023
| Properties | |
|---|---|
| CID | 6228 |
| CAS | 68-12-2 |
| IUPAC-Name | n,n-dimethylmethanamide |
| Abbreviation | DMF |
| Trivialname | nn-dimethylformamide |
| Exact mass | 73.052763847 |
| Molecular formula | C3H7NO |
| LogP | -1 |
| Has vendors | true |
| Molecular role | n/a |
| Synonyms | nn-dimethylformamide,dimethylformamide,nn-dimethylmethanamide,dimethyl formamide,n-formyldimethylamine,formamide nn-dimethyl-,dimethylformamid,dmf,dimetilformamide,dwumetyloformamid |
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Molecule is used on following pages
topic
- Photocatalytic CO2 conversion to CO
- Homogeneous photocatalytic CO2 conversion
- Photocatalytic CO2 conversion to HCOOH
- Photocatalytic CO2 conversion to CH4
publication
- Photocatalytic Reduction of Carbon Dioxide to CO and HCO2H Using fac-Mn(CN)(bpy)(CO)3
- Visible-Light-Driven Photocatalytic CO2 Reduction by a Ni(II) Complex Bearing a Bioinspired Tetradentate Ligand for Selective CO Production
- Visible-Light Photocatalytic Reduction of CO2 to Formic Acid with a Ru Catalyst Supported by N,N’- Bis(diphenylphosphino)-2,6-diaminopyridine Ligands
- Exploring the Full Potential of Photocatalytic Carbon Dioxide Reduction Using a Dinuclear Re2Cl2 Complex Assisted by Various Photosensitizers
- Water-Assisted Highly Efficient Photocatalytic Reduction of CO2 to CO with Noble Metal-Free Bis(terpyridine)iron(II) Complexes and an Organic Photosensitizer
- Photocatalytic CO2 reduction using a Mn complex as a catalyst
- An integrated Re(I) photocatalyst and sensitizer that activates the formation of formic acid from reduction of CO2
- Merging an organic TADF photosensitizer and a simple terpyridine–Fe(iii) complex for photocatalytic CO2 reduction
- Highly Efficient and Selective Photocatalytic CO2 Reduction by Iron and Cobalt Quaterpyridine Complexes
- Mn-carbonyl molecular catalysts containing a redox-active phenanthroline-5,6-dione for selective electro- and photoreduction of CO2 to CO or HCOOH
- Visible-Light-Driven Conversion of CO2 to CH4 with an Organic Sensitizer and an Iron Porphyrin Catalyst
investigation
- Visible-Light-Driven Photocatalytic CO2 Reduction by a Ni(II) Complex Bearing a Bioinspired Tetradentate Ligand for Selective CO Production/Table 1
- Mn-carbonyl molecular catalysts containing a redox-active phenanthroline-5,6-dione for selective electro- and photoreduction of CO2 to CO or HCOOH/Table 1
- Photocatalytic CO2 reduction using a Mn complex as a catalyst/Photocatalytic CO2 reduction: conditions optimization
- Photocatalytic Reduction of Carbon Dioxide to CO and HCO2H Using fac-Mn(CN)(bpy)(CO)3/Table 1
- Photocatalytic Reduction of Carbon Dioxide to CO and HCO2H Using fac-Mn(CN)(bpy)(CO)3/Table 2
- Exploring the Full Potential of Photocatalytic Carbon Dioxide Reduction Using a Dinuclear Re2Cl2 Complex Assisted by Various Photosensitizers/Optimizations of the conditions
- Nickel(II) pincer complexes demonstrate that the remote substituent controls catalytic carbon dioxide reduction/Photocatalytic CO2 reduction under varied conditions
- Promoting photocatalytic CO2 reduction with a molecular copper purpurin chromophore/Photocatalytic CO2 reduction: best results
- Rhenium(I) trinuclear rings as highly efficient redox photosensitizers for photocatalytic CO2 reduction/Table 1
- Rhenium(I) trinuclear rings as highly efficient redox photosensitizers for photocatalytic CO2 reduction/Table 2
- Visible-Light-Driven Conversion of CO2 to CH4 with an Organic Sensitizer and an Iron Porphyrin Catalyst/Photocatalytic reduction of CO2
- Visible-Light-Driven Conversion of CO2 to CH4 with an Organic Sensitizer and an Iron Porphyrin Catalyst/Photocatalytic reduction of CO
- Visible-Light Photocatalytic Reduction of CO2 to Formic Acid with a Ru Catalyst Supported by N,N’- Bis(diphenylphosphino)-2,6-diaminopyridine Ligands/Table 1
- Promoting photocatalytic CO2 reduction with a molecular copper purpurin chromophore/Control experiments
- Water-Assisted Highly Efficient Photocatalytic Reduction of CO2 to CO with Noble Metal-Free Bis(terpyridine)iron(II) Complexes and an Organic Photosensitizer/photocatalytic CO2 conversion
- Photocatalytic CO2 reduction with aminoanthraquinone organic dyes/Photocatalytic reduction of CO2 with different photosensitizers
- Photocatalytic CO2 reduction with aminoanthraquinone organic dyes/Photocatalytic CO2 reduction with varying concentrations of cat and PS
- An integrated Re(I) photocatalyst and sensitizer that activates the formation of formic acid from reduction of CO2/Solvent effect study between DMA DMF and acetonitrile
- An integrated Re(I) photocatalyst and sensitizer that activates the formation of formic acid from reduction of CO2/Time profile in DMF
- An integrated Re(I) photocatalyst and sensitizer that activates the formation of formic acid from reduction of CO2/Effect of proton donor
- Highly Efficient and Selective Photocatalytic CO2 Reduction by Iron and Cobalt Quaterpyridine Complexes/Optimizations of conditions for Co(qpy)(H2O)2(ClO4)2 and purpurin
- Highly Efficient and Selective Photocatalytic CO2 Reduction by Iron and Cobalt Quaterpyridine Complexes/Optimizations of conditions for Fe(qpy)(H2O)2(ClO4)2
- Merging an organic TADF photosensitizer and a simple terpyridine–Fe(iii) complex for photocatalytic CO2 reduction/photocatalytic reduction of CO2 to CO
other
