Molecule:100507: Difference between revisions
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molecule
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|moleculeKey=GSEJCLTVZPLZKY-UHFFFAOYSA-N | |moleculeKey=GSEJCLTVZPLZKY-UHFFFAOYSA-N | ||
|molOrRxn= | |molOrRxn= | ||
-INDIGO- | -INDIGO-07072219382D | ||
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 18: | Line 18: | ||
M V30 COUNTS 10 9 0 0 0 | M V30 COUNTS 10 9 0 0 0 | ||
M V30 BEGIN ATOM | M V30 BEGIN ATOM | ||
M V30 1 | M V30 1 C 6.66699 -4.9 0.0 0 | ||
M V30 2 C | M V30 2 C 7.53301 -4.4 0.0 0 | ||
M V30 3 | M V30 3 N 8.39904 -4.9 0.0 0 | ||
M V30 4 C | M V30 4 C 9.26506 -4.4 0.0 0 | ||
M V30 5 C | M V30 5 C 10.1311 -4.9 0.0 0 | ||
M V30 6 C | M V30 6 C 8.39904 -5.9 0.0 0 | ||
M V30 7 C 7. | M V30 7 C 7.53301 -6.4 0.0 0 | ||
M V30 8 O | M V30 8 O 5.80096 -4.4 0.0 0 | ||
M V30 9 O | M V30 9 O 7.53301 -7.4 0.0 0 | ||
M V30 10 O | M V30 10 O 10.9971 -4.4 0.0 0 | ||
M V30 END ATOM | M V30 END ATOM | ||
M V30 BEGIN BOND | M V30 BEGIN BOND | ||
M V30 1 1 1 2 | M V30 1 1 1 2 | ||
M V30 2 1 | M V30 2 1 2 3 | ||
M V30 3 1 | M V30 3 1 3 4 | ||
M V30 4 1 4 5 | M V30 4 1 4 5 | ||
M V30 5 1 | M V30 5 1 3 6 | ||
M V30 6 1 | M V30 6 1 6 7 | ||
M V30 7 1 | M V30 7 1 1 8 | ||
M V30 8 1 | M V30 8 1 7 9 | ||
M V30 9 1 5 10 | M V30 9 1 5 10 | ||
M V30 END BOND | M V30 END BOND | ||
M V30 END CTAB | M V30 END CTAB | ||
M END | M END | ||
|smiles=C(O)CN(CCO)CCO | |||
|smiles= | |||
|inchi=1S/C6H15NO3/c8-4-1-7(2-5-9)3-6-10/h8-10H,1-6H2 | |inchi=1S/C6H15NO3/c8-4-1-7(2-5-9)3-6-10/h8-10H,1-6H2 | ||
|inchikey=GSEJCLTVZPLZKY-UHFFFAOYSA-N | |inchikey=GSEJCLTVZPLZKY-UHFFFAOYSA-N | ||
|width=300px | |width=300px | ||
|height=GSEJCLTVZPLZKY-UHFFFAOYSA-N | |height=GSEJCLTVZPLZKY-UHFFFAOYSA-N | ||
|float= | |float=left | ||
|parent= | |parent= | ||
}} | }} |
Revision as of 16:33, 3 November 2022
Properties | |
---|---|
CID | 7618 |
CAS | 102-71-6 |
IUPAC-Name | 2-[bis(2-hydroxyethyl)amino]ethanol |
Abbreviation | n/a |
Trivialname | triethanolamine |
Exact mass | 149.10519334 |
Molecular formula | n/a |
LogP | -1 |
Has vendors | true |
Molecular role | n/a |
Synonyms | triethanolamine,trolamine,22'2-nitrilotriethanol,sterolamide,tris(2-hydroxyethyl)amine,daltogen,nitrilotriethanol,triethylolamine,trihydroxytriethylamine,thiofaco t-35 |
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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
- Highly Efficient and Robust Photocatalytic Systems for CO2 Reduction Consisting of a Cu(I) Photosensitizer and Mn(I) Catalysts
- Photocatalytic Reduction of Carbon Dioxide to CO and HCO2H Using fac-Mn(CN)(bpy)(CO)3
- Visible-Light Photocatalytic Conversion of Carbon Dioxide by Ni(II) Complexes with N4S2 Coordination: Highly Efficient and Selective Production of Formate
- 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
- Photocatalytic CO2 Reduction Using a Robust Multifunctional Iridium Complex toward the Selective Formation of Formic Acid
- Pyranopterin Related Dithiolene Molybdenum Complexes as Homogeneous Catalysts for CO2 Photoreduction
- New Photosensitizers Based on Heteroleptic Cu(I) Complexes and CO2 Photocatalytic Reduction with (Ni(II)(cyclam))Cl2
- Photocatalytic CO2 Reduction under Visible-Light Irradiation by Ruthenium CNC Pincer Complexes
- Ir(tpy)(bpy)Cl as a Photocatalyst for CO2 Reduction under Visible-Light Irradiation
- Highly efficient and selective visible-light driven CO2-to-CO conversion by a Co-based cryptate in H2O-CH3CN solution
- Photocatalytic CO2 reduction using a Mn complex as a catalyst
- A Dinuclear Cobalt Cryptate as a Homogeneous Photocatalyst for Highly Selective and Efficient Visible-Light Driven CO2 Reduction to CO in CH3CN-H2O Solution
- An integrated Re(I) photocatalyst and sensitizer that activates the formation of formic acid from reduction of CO2
- Function-Integrated Ru Catalyst for Photochemical CO2 Reduction
- A Cu(I) Co(II) cryptate for the visible light-driven reduction of CO2
- Highly Efficient and Selective Photocatalytic CO2 Reduction by Iron and Cobalt Quaterpyridine Complexes
- Light-Driven Reduction of CO2 to CO in Water with a Cobalt Molecular Catalyst and an Organic Sensitizer
- 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
- Photochemical Reduction of Carbon Dioxide to Formic Acid using Ruthenium(II)-Based Catalysts and Visible Light
- Toward Visible-Light Photochemical CO2‑to-CH4 Conversion in Aqueous Solutions Using Sensitized Molecular Catalysis
investigation
- Visible-Light Photocatalytic Conversion of Carbon Dioxide by Ni(II) Complexes with N4S2 Coordination: Highly Efficient and Selective Production of Formate/Table 1
- Visible-Light-Driven Photocatalytic CO2 Reduction by a Ni(II) Complex Bearing a Bioinspired Tetradentate Ligand for Selective CO Production/Table 1
- Light-Driven Reduction of CO2 to CO in Water with a Cobalt Molecular Catalyst and an Organic Sensitizer/Photocatalytic CO2 Reduction by 1 (2 μM) in CO2-Saturated Aqueous CH3CN Solutions
- Pyranopterin Related Dithiolene Molybdenum Complexes as Homogeneous Catalysts for CO2 Photoreduction/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
- Highly Efficient and Robust Photocatalytic Systems for CO2 Reduction Consisting of a Cu(I) Photosensitizer and Mn(I) Catalysts/Results for photocatalytic reduction of CO2
- 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
- Function-Integrated Ru Catalyst for Photochemical CO2 Reduction/Control experiments
- Highly Efficient and Robust Photocatalytic Systems for CO2 Reduction Consisting of a Cu(I) Photosensitizer and Mn(I) Catalysts/Durability test
- Toward Visible-Light Photochemical CO2‑to-CH4 Conversion in Aqueous Solutions Using Sensitized Molecular Catalysis/Photocatalytic reduction of CO2: conditions optimization
- 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 CO
- Photochemical Reduction of Carbon Dioxide to Formic Acid using Ruthenium(II)-Based Catalysts and Visible Light/Table 1
- Photochemical Reduction of Carbon Dioxide to Formic Acid using Ruthenium(II)-Based Catalysts and Visible Light/Table 2
- Photocatalytic CO2 Reduction under Visible-Light Irradiation by Ruthenium CNC Pincer Complexes/Conditions optimizations for photocatalytic reduction of CO2
- 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
- Ir(tpy)(bpy)Cl as a Photocatalyst for CO2 Reduction under Visible-Light Irradiation/Photoreduction of CO2
- Photocatalytic CO2 Reduction Using a Robust Multifunctional Iridium Complex toward the Selective Formation of Formic Acid/Control experiments
- A Cu(I) Co(II) cryptate for the visible light-driven reduction of CO2/Photocatalytic reduction of CO2
- New Photosensitizers Based on Heteroleptic Cu(I) Complexes and CO2 Photocatalytic Reduction with (Ni(II)(cyclam))Cl2/Photocatalytic CO2 reduction and control experiments
- Photocatalytic Reduction of CO2 by Highly Efficient Homogeneous FeII Catalyst based on 2,6-Bis(1’,2’,3’-triazolyl-methyl)pyridine. Comparison with Analogues./CO2 reduction experiments testing different catalysts
- Photocatalytic Reduction of CO2 by Highly Efficient Homogeneous FeII Catalyst based on 2,6-Bis(1’,2’,3’-triazolyl-methyl)pyridine. Comparison with Analogues./Optimization of CO2 reduction conditions
- Highly efficient and selective visible-light driven CO2-to-CO conversion by a Co-based cryptate in H2O-CH3CN solution/photocatalytic CO2 conversion under different conditions
- A Dinuclear Cobalt Cryptate as a Homogeneous Photocatalyst for Highly Selective and Efficient Visible-Light Driven CO2 Reduction to CO in CH3CN-H2O Solution/Best result and control experiments
- 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/Study on the concentration of catalyst
- 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 Ru(bpy)3Cl2
- Highly Efficient and Selective Photocatalytic CO2 Reduction by Iron and Cobalt Quaterpyridine Complexes/Optimizations of conditions for Fe(qpy)(H2O)2(ClO4)2 and Ru(bpy)3Cl2
- Photochemical Reduction of Carbon Dioxide to Formic Acid using Ruthenium(II)-Based Catalysts and Visible Light/Optimization of concentrations
- Photochemical Reduction of Carbon Dioxide to Formic Acid using Ruthenium(II)-Based Catalysts and Visible Light/CO2 reduction experiments
other