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Sustainable Conversion of Carbon Dioxide: An Integrated Review of Catalysis and Life Cycle Assessment

CO2 conversion covers a wide range of possible application areas from fuels to bulk and commodity chemicals and even to specialty products with biological activity such as pharmaceuticals. In the present review, we discuss selected examples in these areas in a combined analysis of the state-of-the-art of synthetic methodologies and processes with their life cycle assessment. Thereby, we attempted to assess the potential to reduce the environmental footprint in these application fields relative to the current petrochemical value chain. This analysis and discussion differs significantly from a viewpoint on CO2 utilization as a measure for global CO2 mitigation. Whereas the latter focuses on reducing the end-of-pipe problem “CO2 emissions” from todays’ industries, the approach taken here tries to identify opportunities by exploiting a novel feedstock that avoids the utilization of fossil resource in transition toward more sustainable future production. Thus, the motivation to develop CO2-based chemistry does not depend primarily on the absolute amount of CO2 emissions that can be remediated by a single technology. Rather, CO2-based chemistry is stimulated by the significance of the relative improvement in carbon balance and other critical factors defining the environmental impact of chemical production in all relevant sectors in accord with the principles of green chemistry.

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H317NO – PubChem

 

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184363-66-4, Name is (S)-4-Phenyl-3-propionyloxazolidin-2-one, belongs to oxazolidine compound, is a common compound. category: oxazolidineIn an article, once mentioned the new application about 184363-66-4.

Direct alpha-siladifluoromethylation of lithium enolates with ruppert-prakash reagent via Ci-F bond activation

The direct alpha-siladifluoromethylation of lithium enolates with the Ruppert-Prakash reagent (CF3TMS) is shown to construct the tertiary and quaternary carbon centers. The Ruppert-Prakash reagent, which is versatile for various trifluoromethylation as a trifluoromethyl anion (CF3 -) equivalent, can be employed as a siladifluoromethyl cation (TMSCF2+) equivalent by Ci-F bond activation due to the strong interaction between lithium and fluorine atoms. Reaching for Ruppert-Prakash: The direct alpha-siladifluoromethylation of lithium enolates with the Ruppert-Prakash reagent (CF3TMS) is shown to construct tertiary and quaternary carbon centers (see scheme). The Ruppert-Prakash reagent can be employed as a siladifluoromethyl cation (TMSCF2+) equivalent by Ci-F bond activation due to the strong interaction between lithium and fluorine atoms.

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H2262NO – PubChem

 

Brief introduction of (R)-4-Phenyl-3-propionyloxazolidin-2-one

Balanced chemical reaction does not necessarily reveal either the individual elementary reactions by which a reaction occurs or its rate law.Electric Literature of 160695-26-1. In my other articles, you can also check out more blogs about 160695-26-1

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Absolute configuration of lactams and oxazolidinones using kinetic resolution catalysts

A simple method for determining the absolute configuration of oxazolidinones, lactams, and their derivatives using kinetic resolution catalysts is described. The optically pure substrates were acylated using the (S)-HBTM and the (R)-HBTM catalyst, and the faster reaction was determined. An empirical mnemonic was developed for the assignment of the absolute configuration based on the fast-reacting catalyst.

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H2245NO – PubChem

 

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Enzyme-assisted asymmetric total synthesis of (-)-podophyllotoxin and (- )-picropodophyllin

Described is the first catalytic, asymmetric synthesis of (-)- podophyllotoxin and its C2-epimer, (-)picropodophyllin. Asymmetry is achieved via the enzymatic desymmetrization of advanced meso diacetate 20, through PPL-mediated ester hydrolysis. A second key feature of the synthesis is the strategically late introduction of the highly oxygenated natural ring E through an arylcopper species. The successful implementation of this approach augers well for the introduction of other functionalized rings E for future SAR work. The synthesis begins from piperonal, which is fashioned into isobenzofuran (IBF) precursor 14 in three steps (bromination, acetalization, and halogenmetal exchange/hydroxymethylation). Interestingly, treatment of 14 with HOAc in commerical dimethyl maleate (contains 5% dimethyl fumarate) leads to a nearly equimolar mixture of fumarate-(15) and maleate-IBF Diels- Alder adducts (16 and 17), indicating that IBF 11 reacts about 15 times faster with dimethyl fumarate than with dimethyl maleate. With scrupulously pure dimethyl maleate a 2.8:1 endo:exo mixture of maleate DA adducts is still obtained. On the other hand, the desired meso diester 16 is obtained pure and in nearly quantitative yield by employing neat dimethyl acetylene dicarboxylate as the dienophile, followed by catalytic hydrogenation. Reduction (LiAlH4) of 16 provides meso diol 19, which is then treated with Ac2O, BzCl, and PhCH2COCl to provide the corresponding meso diesters, 20- 22. Screening of these meso benzoxabicyclo[2.2.1]heptyl substrate candidates across a battery of acyl transfer enzymes leads to an optimized match of diacetate 20 with PPL. Even on 10-20 g scales, asymmetry is efficiently introduced here, yielding the key chiral intermediate, monoacetate 25 (66% isolated yield, 83% corrected yield, 95% ee). Protecting group manipulation and oxidation (Swern) provide aldehyde 27b, which undergoes efficient retro- Michael ring opening to produce dihydronaphthalene 30, in which the C3 and C4 stereocenters are properly set. Following several unsuccessful approaches to the intramolecular delivery of ring E (via Claisen rearrangement, Heck- type cyclization, or radical cyclization), a highly diastereoselective, intermolecular conjugate addition of the arylcopper reagent derived from (3,4,5-trimethoxy)phenylmagnesium bromide and CuCN to acyl oxazolidinone 50 was developed (85% yield, only the required alpha-stereochemistry at C1 is observed). The conjugate addition product is converted to (-)- picropodophyllin in two steps (lactonization, SEM deprotection) or to (-)- podophyllotoxin, in three steps, through the introduction of a C2- epimerization step, under Kende conditions, prior to the final conjugate addition.

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H346NO – PubChem

 

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In homogeneous catalysis, the catalyst is in the same phase as the reactant. The number of collisions between reactants and catalyst is at a maximum.In a patent, 695-53-4, name is 5,5-Dimethyloxazolidine-2,4-dione, introducing its new discovery. SDS of cas: 695-53-4

Revisiting the SAR of the Antischistosomal Aryl Hydantoin (Ro 13-3978)

The aryl hydantoin 1 (Ro 13-3978) was identified in the early 1980s as a promising antischistosomal lead compound. However, this series of aryl hydantoins produced antiandrogenic side effects in the host, a not unexpected outcome given their close structural similarity to the antiandrogenic drug nilutamide. Building on the known SAR of this compound series, we now describe a number of analogs of 1 designed to maximize structural diversity guided by incorporation of substructures and functional groups known to diminish ligand-androgen receptor interactions. These analogs had calculated polar surface area (PSA), measured LogD7.4, aqueous kinetic solubility, and estimated plasma protein binding values in ranges predictive of good ADME profiles. The principal SAR insight was that the hydantoin core of 1 is required for high antischistosomal activity. We identified several compounds with high antischistosomal efficacy that were less antiandrogenic than 1. These data provide direction for the ongoing optimization of antischistosomal hydantoins.

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H1387NO – PubChem

 

Discovery of 497-25-6

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Copper-catalyzed N-arylation of 2-oxazolidinones. An expeditious route to toloxatone

3-Aryl-2-oxazolidinones are obtained in excellent yields through the copper-catalyzed N-arylation of 2-oxazolidinones with a variety of aryl iodides. With aryl halides containing both iodo and bromo substituents, a high C-I/C-Br selectivity can be achieved. The procedure has been successfully applied to the preparation of a key intermediate in the synthesis of linezolid and to develop an expeditious route to toloxatone.

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H385NO – PubChem

 

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Enantioselective synthesis of putative lipiarmycin aglycon related to fidaxomicin/tiacumicin B

An enantioselective synthesis of a putative lipiarmycin aglycon was accomplished and features: 1) Brown’s enantioselective alkoxyallylboration and allylation of aldehydes, 2) chain elongation by iterative Horner-Wadsworth-Emmons olefination, 3) Evans’ aldol reaction and 4) an enediene ring-closing metathesis. A neighboring-group-assisted chemoselective reductive desilylation was uncovered in this study and was instrumental to the realization of the present synthesis.

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H1811NO – PubChem

 

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Related Products of 497-25-6, The reaction rate of a catalyzed reaction is faster than the reaction rate of the uncatalyzed reaction at the same temperature.497-25-6, Name is Oxazolidin-2-one, molecular formula is C3H5NO2. In a Patent,once mentioned of 497-25-6

METHOD FOR PRODUCING 1,4-DIPHENYL AZETIDINONE DERIVATIVES

The present invention is directed to the preparation of novel compounds useful in the treatment of hyperlipidemia, arteriosclerosis, hypercholesterolemia, and other related metabolic disorders. More specifically, the present invention is a novel process for the preparation of 1,4-diphenylazetidinone derivatives from beta-substituted amino amides which are protected in the presence of silylating agents and at least one cyclization catalyst whose structural formula is represented by one of the general formula: Wherein the various R-groups are defined herein

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H14NO – PubChem

 

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Synthesis of a proposed structure for the diffusible extracellular factor of Xanthomonas campestris pv. campestris

A proposed structure for the diffusible extracellular factor (DF) of Xanthomonas campestris pv. campestris (Xcc) has been synthesized. Its MS spectrum and biological activity, however, contradict those of the natural product previously reported, suggesting that the structure for DF of Xcc must be reexamined.

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H2087NO – PubChem

 

Discovery of Methyl (R)-N-Boc-2,2-dimethyloxazolidine-4-carboxylate

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CYCLIZED SULFAMOYLARYLAMIDE DERIVATIVES AND THE USE THEREOF AS MEDICAMENTS FOR THE TREATMENT OF HEPATITIS B

Inhibitors of HBV replication of Formula (I-A), including stereochemically isomeric forms, and salts, hydrates, solvates thereof, wherein Ra to Rd, and R1 to R8 have the meaning as defined herein. The present invention also relates to processes for preparing said compounds, pharmaceutical compositions containing them and their use, alone or in combination with other HBV inhibitors, in HBV therapy.

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Reference:
Oxazolidine – Wikipedia,
Oxazolidine | C3H2485NO – PubChem