Carbonyl Condensation Reactions
... conjugated enone as it is formed, especially if reaction conditions are pushed, eg high temperature. Mixed or "crossed" Aldol Reactions — If two different carbonyl compounds are allowed to react in an aldol reaction four products usually result; each carbonyl compound forms an enolate and each enola ...
... conjugated enone as it is formed, especially if reaction conditions are pushed, eg high temperature. Mixed or "crossed" Aldol Reactions — If two different carbonyl compounds are allowed to react in an aldol reaction four products usually result; each carbonyl compound forms an enolate and each enola ...
Oxidation and Reduction Reactions
... hydrogen to a carbonyl (using NaBH4 or LiAlH4 as the source of nucleophilic hydrogen). This was a chemoselective reaction – in other words, the reducing agent only reduced one functional group (the carbonyl) and left others alone (e.g. alkenes). If we want to reduce an alkene or alkyne, we need to u ...
... hydrogen to a carbonyl (using NaBH4 or LiAlH4 as the source of nucleophilic hydrogen). This was a chemoselective reaction – in other words, the reducing agent only reduced one functional group (the carbonyl) and left others alone (e.g. alkenes). If we want to reduce an alkene or alkyne, we need to u ...
Ch 6 Lecture 2
... a) Polar covalent bonds must lead to overall dipole = polar Water, alcohols, acetonitrile, acetone b) Nonpolar = small or no net dipole: alkanes, ethers ...
... a) Polar covalent bonds must lead to overall dipole = polar Water, alcohols, acetonitrile, acetone b) Nonpolar = small or no net dipole: alkanes, ethers ...
OxorheniumCatalyzed Deoxydehydration of Sugars and Sugar
... Mika Shiramizu and F. Dean Toste* The conversion of renewable cellulosic biomass into fuels and chemicals has attracted increased attention with the growing demand for sustainability.[1] However, one fundamental challenge is that saccharides, the major component of cellulosic biomass, are highly oxy ...
... Mika Shiramizu and F. Dean Toste* The conversion of renewable cellulosic biomass into fuels and chemicals has attracted increased attention with the growing demand for sustainability.[1] However, one fundamental challenge is that saccharides, the major component of cellulosic biomass, are highly oxy ...
A Model for Catalytically Active Zinc(I1) Ion in Liver
... (11). Identification of reaction products was performed by coinjection of reaction mixtures with standards onto HPLC column and/or by IH N M R measurements of isolated products. HPLC analysis was performed by a 5 pm Lichrospher Si60 column (250 X $50 mm) eluted with 1:l n-hexanelethyl acetate at 1.5 ...
... (11). Identification of reaction products was performed by coinjection of reaction mixtures with standards onto HPLC column and/or by IH N M R measurements of isolated products. HPLC analysis was performed by a 5 pm Lichrospher Si60 column (250 X $50 mm) eluted with 1:l n-hexanelethyl acetate at 1.5 ...
alkene structure, naming, stereochemistry & preparation
... ΔE = +264 kJ/mol You may not twist an alkene – like, for example, an ethane molecule, which twists ~ 1014 times a second at room temperature – unless you “pay” 264 kJ/mol and break the π – bond. As a consequence, alkenes exist as 2-D isomers, as “E” (Germ., entgegen = oposite) and ...
... ΔE = +264 kJ/mol You may not twist an alkene – like, for example, an ethane molecule, which twists ~ 1014 times a second at room temperature – unless you “pay” 264 kJ/mol and break the π – bond. As a consequence, alkenes exist as 2-D isomers, as “E” (Germ., entgegen = oposite) and ...
Addition/elimination under acidic conditions
... Nucleophilic acyl substitutions can occur with weak nucleophiles under basic conditions, but only if the carboxylic acid derivative is very reactive Nulceophilic acyl substitutions can occur with weak nucleophiles under acidic conditions Carboxylic acids can be esterified with alcohols under a ...
... Nucleophilic acyl substitutions can occur with weak nucleophiles under basic conditions, but only if the carboxylic acid derivative is very reactive Nulceophilic acyl substitutions can occur with weak nucleophiles under acidic conditions Carboxylic acids can be esterified with alcohols under a ...
CBS Reduction
... History of CBS reduction and selectivity • In 1981 Itsuno et al reduced achiral ketones to chiral alcohols using alkoxy-amine-borane complexes in enantioselectivity and in high yield. • In 1987 E.J. Corey, with his co-workers, used oxazaborolidines to rapidlly reduce ketones in the presence of BH3- ...
... History of CBS reduction and selectivity • In 1981 Itsuno et al reduced achiral ketones to chiral alcohols using alkoxy-amine-borane complexes in enantioselectivity and in high yield. • In 1987 E.J. Corey, with his co-workers, used oxazaborolidines to rapidlly reduce ketones in the presence of BH3- ...
Chapter 3 Properties of organic compounds
... -ÕLÃÌÌÕÌÊqÊof the OH− using conc HCl (with ZnCl2) or SOCl2 to form a chloroalkane. Substitution is faster for tertiary alcohols than for secondary, and slowest for primary alcohols. Rate of substitution of alcohols is increased by heating the reaction mixture under reflux – this way the reaction ...
... -ÕLÃÌÌÕÌÊqÊof the OH− using conc HCl (with ZnCl2) or SOCl2 to form a chloroalkane. Substitution is faster for tertiary alcohols than for secondary, and slowest for primary alcohols. Rate of substitution of alcohols is increased by heating the reaction mixture under reflux – this way the reaction ...
Efficient and catalyst-free condensation of acid chlorides and
... Full conversion of benzoyl chloride and methanol into methyl benzoate is possible using a residence time of 300 sec, a reaction temperature of 80°C and as little as 1.3 equivalents of MeOH. At lower residence times, traces of benzoyl chloride were detected in the reaction mixture, even if the stoich ...
... Full conversion of benzoyl chloride and methanol into methyl benzoate is possible using a residence time of 300 sec, a reaction temperature of 80°C and as little as 1.3 equivalents of MeOH. At lower residence times, traces of benzoyl chloride were detected in the reaction mixture, even if the stoich ...
Stereoselective reactions of the carbonyl group
... This activates carbonyl as it is more electrophilic and weakens B–C bond, making the reagent more nucleophilic Funnily enough, reaction proceeds by a 6-membered transition state H ...
... This activates carbonyl as it is more electrophilic and weakens B–C bond, making the reagent more nucleophilic Funnily enough, reaction proceeds by a 6-membered transition state H ...
Chapter 18 Ketones and Aldehydes 1) Which of the following
... Copyright © 2013 Pearson Education, Inc. ...
... Copyright © 2013 Pearson Education, Inc. ...
Required Resources and Materials
... dehydration reaction Aldehydes and Ketones (an intro before we go through the sheets) an aldehyde is like a ketone on the last carbon so it is attached to an H. In the centre is a C=O which is called a carbonyl group. In Naming – aldehydes end with "al" Ketones have an "one" at the end of the ...
... dehydration reaction Aldehydes and Ketones (an intro before we go through the sheets) an aldehyde is like a ketone on the last carbon so it is attached to an H. In the centre is a C=O which is called a carbonyl group. In Naming – aldehydes end with "al" Ketones have an "one" at the end of the ...
Oxidation of Cyclohexanol
... pour 30 mL of household bleach ( 0.74 M sodium hypochlorite) into the flask, portion by portion, over about 2 minutes while stirring frequently. Again, do not waste time obtaining exactly 30.0mL of bleach, but do record exactly how much material used. The flask will become significantly warm becaus ...
... pour 30 mL of household bleach ( 0.74 M sodium hypochlorite) into the flask, portion by portion, over about 2 minutes while stirring frequently. Again, do not waste time obtaining exactly 30.0mL of bleach, but do record exactly how much material used. The flask will become significantly warm becaus ...
無投影片標題
... • If more than one of the same kind of halogen is present, use prefix di, tri, tetra • If there are several different halogens, number them and list them in alphabetical order ...
... • If more than one of the same kind of halogen is present, use prefix di, tri, tetra • If there are several different halogens, number them and list them in alphabetical order ...
Thiobenzoate Photochemistry
... reviews.12-14 Besides the Norrish Type II process, photoexcited thiocarbonyls can dimerize, oxidize, undergo cycloadditions and suffer cleavage reactions. The excited thiocarbonyl group has rarely been implicated in electron transfer reactions. In fact, one review goes so far as to claim that "the e ...
... reviews.12-14 Besides the Norrish Type II process, photoexcited thiocarbonyls can dimerize, oxidize, undergo cycloadditions and suffer cleavage reactions. The excited thiocarbonyl group has rarely been implicated in electron transfer reactions. In fact, one review goes so far as to claim that "the e ...
Electophilic Aromatic Substituion
... electron-withdrawing substituents ortho and para react with nucleophiles • Form addition intermediate (Meisenheimer complex) that is stabilized by electron-withdrawal • Halide ion is lost to give aromatic ring ...
... electron-withdrawing substituents ortho and para react with nucleophiles • Form addition intermediate (Meisenheimer complex) that is stabilized by electron-withdrawal • Halide ion is lost to give aromatic ring ...
Enhanced diastereoselectivity of an ene hydroperoxidation reaction
... 1.76 (major diastereomer) and 1.69 ppm (minor diastereomer), respectively, affords the diastereomeric ratio of the products derived from the anti PE (Dabstraction). On the other hand, integration of the olefinic protons at 4.89 and 4.79 ppm for the major diastereomer, versus 4.87 and 4.85 ppm for th ...
... 1.76 (major diastereomer) and 1.69 ppm (minor diastereomer), respectively, affords the diastereomeric ratio of the products derived from the anti PE (Dabstraction). On the other hand, integration of the olefinic protons at 4.89 and 4.79 ppm for the major diastereomer, versus 4.87 and 4.85 ppm for th ...
Microsoft Word
... The foundation of synthetic organic chemistry rests on the ability to form and manipulate carbon-carbon bonds. The increasing demand of coupled products in chemical and pharmaceutical industries has prompted the development of several transition metal catalysts, which aim to exert the highest turnov ...
... The foundation of synthetic organic chemistry rests on the ability to form and manipulate carbon-carbon bonds. The increasing demand of coupled products in chemical and pharmaceutical industries has prompted the development of several transition metal catalysts, which aim to exert the highest turnov ...
SYNOPSIS
... Chapter III: Lithium perchlorate catalyzed reactions of indoles: An expeditious synthesis of Bis (indolyl) methanes. The acid-catalyzed reaction of electron-rich heterocyclic compounds with pdimethylamino benzaldehyde is known as Ehrlich test for -electron excessive heterocycles such as pyroles and ...
... Chapter III: Lithium perchlorate catalyzed reactions of indoles: An expeditious synthesis of Bis (indolyl) methanes. The acid-catalyzed reaction of electron-rich heterocyclic compounds with pdimethylamino benzaldehyde is known as Ehrlich test for -electron excessive heterocycles such as pyroles and ...
resonance effects - HCC Learning Web
... Inductive effect - withdrawal or donation of electrons through a s bond Resonance effect - withdrawal or donation of electrons through a bond due to the overlap of a p orbital on the substituent with a p orbital on the aromatic ring ...
... Inductive effect - withdrawal or donation of electrons through a s bond Resonance effect - withdrawal or donation of electrons through a bond due to the overlap of a p orbital on the substituent with a p orbital on the aromatic ring ...
Chapter16McMurryPPP
... electron-withdrawing substituents ortho and para react with nucleophiles Form addition intermediate (Meisenheimer complex) that is stabilized by electron-withdrawal Halide ion is lost to give aromatic ring ...
... electron-withdrawing substituents ortho and para react with nucleophiles Form addition intermediate (Meisenheimer complex) that is stabilized by electron-withdrawal Halide ion is lost to give aromatic ring ...
Micellar Catalytic Effect of Cetyltrimethylammonium Bromide
... in eugenol it will followed by Claisen rearrangement reaction. Because of that the use of heat on allylation of eugenol should be avoided. To avoid using heat, reaction could be conduct in room temperature, since reaction of ether formation involves two phase, so reaction could be done by phase tran ...
... in eugenol it will followed by Claisen rearrangement reaction. Because of that the use of heat on allylation of eugenol should be avoided. To avoid using heat, reaction could be conduct in room temperature, since reaction of ether formation involves two phase, so reaction could be done by phase tran ...
Organic Chemistry Introduction
... • At high temperatures, sufficient E for both reactions to occur •A B (fast) and A C (slower) • or B A C • We see more stable product dominate. Fall, 2009 ...
... • At high temperatures, sufficient E for both reactions to occur •A B (fast) and A C (slower) • or B A C • We see more stable product dominate. Fall, 2009 ...
Brominations and Alkene Synthesis CHM 233 Review
... look from here, looks like this • ANTI addition, bromines add to opposite sides of the C=C double bond (top and bottom) • note new type of structure for indicating stereochemistry on rings, trans- in this case • NOTE, because of bromonium ion intermediate (no "free" carbocation) there are no rearran ...
... look from here, looks like this • ANTI addition, bromines add to opposite sides of the C=C double bond (top and bottom) • note new type of structure for indicating stereochemistry on rings, trans- in this case • NOTE, because of bromonium ion intermediate (no "free" carbocation) there are no rearran ...
Diels–Alder reaction
The Diels–Alder reaction is an organic chemical reaction (specifically, a [4+2] cycloaddition) between a conjugated diene and a substituted alkene, commonly termed the dienophile, to form a substituted cyclohexene system. It was first described by Otto Paul Hermann Diels and Kurt Alder in 1928, for which work they were awarded the Nobel Prize in Chemistry in 1950. The Diels–Alder reaction is particularly useful in synthetic organic chemistry as a reliable method for forming 6-membered systems with good control over regio- and stereochemical properties. The underlying concept has also been applied to other π-systems, such as carbonyls and imines, to furnish the corresponding heterocycles, known as the hetero-Diels–Alder reaction. Diels–Alder reactions can be reversible under certain conditions; the reverse reaction is known as the retro-Diels–Alder reaction.