Transcript File
UNIT 4 A2 ORGANIC CHEMISTRY MECHANISMS AND REAGENTS. ALDEHYDES & KETONES Identified by • Tollens reagent • Fehling’s Solution Aldehydes are oxidised to carboxylic acids. Therefore, the Tollens’ and Fehling’s must be reduced. Tollens’ Reagent Sodium hydroxide, aqueous silver nitrate this produces a precipitate. Ammonia is then added to make aqueous [Ag(NH3)2]+ This is reduced to silver when an aldehyde is added. Fehling’s Solution This is a blue solution containing Cu2+ ions. When aldehydes are added and heated, these ions are reduced to cooper (I) oxide Cu2O, producing a brick-red ppt. AQA A2 text book, p64 ALCOHOLS FROM ALDEHYDES & KETONES ALDEHYDE KETONE Lithium tetrahydridoaluminate LiAlH4 [H] Sodium tetrahydridoborate NaBH4 PRIMARY ALCOHOL SECONDARY ALCOHOL Mechanism • Nucleophilic addition • The reducing agents produce the H- ion (the nucleophile). • The carbonyl bond is polar, due to oxygen being more electronegative. • First Step is the hydride ion being attracted to the ƍ+ carbon. • Second step, the product of first step gains a proton. AQA A2 text book, p66 HYDROXYNITRILES FROM ALDEHYDES & KETONES ALDEHYDE HCN HYDROXYNITRILE KETONE KCN/H2SO4 Mechanism • Similar to making alcohols! • Nucleophilic addition • The reducing agents produce the CN- ion (the nucleophile). • The carbonyl bond is polar, due to oxygen being more electronegative. • First Step is the cyanide ion being attracted to the ƍ+ carbon. • Second step, the product of first step gains a proton from the solvent or hydrogen cyanide. AQA A2 text book, p68 HYDROLYSIS OF THE NITRILE GROUP The nitrile is hydrolysed in acidic conditions, producing a carboxylic group. HYDROXYNITRILE H2O/ H+ CARBOXYLIC ACID AMMONIUM AQA A2 text book, p69 ESTERS FROM CARBOXYLIC ACIDS & ALCOHOLS CARBOXYLIC ACID ALCOHOLS H2SO4 or HCl cat, reflux ESTER WATER No need for Mechanism • But you do need to be able to draw and name ester. • OH from carboxylic acid and H from OH in alcohol bond to produce water. • First part of name comes from the alcohol, second from the carboxylic acid. AQA A2 text book, p71 ESTER HYDROLYSIS Acid Catalysed Hydrolysis • Reverse of esterification. • Dilute sulfuric acid or hydrochloric acid. • Heat under reflux. ESTER CARBOXYLIC ACID WATER ALCOHOLS Base-Catalysed Hydrolysis • Form a salt • Dilute strong base, sodium hydroxide. • Heat under reflux. • This method is quicker than acid catalysed. Heat with excess dilute acid to produce carboxylic acid ESTER SODIUM CARBOXYLATE SODIUM HYDROXIDE ALCOHOLS AQA A2 text book, p74 VEGETABLE OILS & ANIMAL FATS Alkyl chain in Vegetable oils are unsaturated. Alkyl chain in Animal fats are saturated. TRIACYLGLYCEROLS or TRIGLYCERIDES (three “esters”) TRIESTERS No need for Mechanism Hydrolysed by heating with aqueous sodium hydroxide or potassium hydroxide. Produces glycerol (propane-1,2,3-triol) and sodium/potassium salt. TRIACYGLYCEROL PROPANE-1,2,3-TRIOL SODIUM HYDROXIDE SODIUM CARBOXYLATE Three moles Three moles produced AQA A2 text book, p74-75 BIODIESEL No need for Mechanism • Base catalysed Transesterification. • Heating vegetable oil with methanol and sodium hydroxide. • Produces methyl esters with long chains and propane-1,2,3-triol. TRIACYGLYCEROL PROPANE-1,2,3-TRIOL SODIUM HYDROXIDE METHYL ESTER METHANOL Three moles Three moles AQA A2 text book, p75 ACYL CHLORIDES Mechanism • Nucleophilic Substitution reactions. (two steps addition + elimination) • Greater ƍ+ on carbon due to Cl and O bond. • 1st Step (addition) nucleophile attacks carbon ƍ+ . Pair of electrons in C=O is transferred to oxygen. • 2nd Step (elimination) lone pair of electrons on oxygen forms C=O, chlorine is eliminated. Hydrogen attached to oxygen atom breaks. CARBOXYLIC ACID water alcohol ESTER ACYL CHLORIDE N-SUBSTITUTED AMIDE AQA A2 text book, p76-81 Primary amine ammonia Hydrogen chloride, HCl is the secondary product. AMIDE ACID ANHYDRIDE Synthesis Dehydrate a carboxylic acid (P4O10 cat) Mechanism • Same as acyl chlorides. • Secondary product is a carboxylic acid. CARBOXYLIC ACID water alcohol ESTER ACID ANYDRIDE N-SUBSTITUTED AMIDE AQA A2 text book, p76-81 Primary amine ammonia AMIDE Preferred in synthesis, cheaper, less violent reactions, no fumes of HCl NITRO COMPOUNDS FROM BENZENE Mechanism • Generate the nitronium ion. Nitric acid and sulfuric acid. • Protonation of nitric acid, then protonated nitric acid breaks down. • Electrophilic substitution(addition then elimination). • Electrophile is attracted to the delocalized electron. • C-H bond breaks and restores the stable delocalized electron structure. BENZENE UNSTABLE POSITIVELY CHARGED INTERMEDIATE NITROBENZENE Temperature should be kept at 50oC. Further substitution occurs at 100oC (1,3-dinitrobenzene). AQA A2 text book, p90-91 ICE DYES & DIAZONIUM SALTS Ice Dyes No need for mechanism but need to be able to draw compounds. Sodium chloride and water is also formed. PHENYLAMINE Sodium nitrate(III), HCl Ice bath (chilled) DIAZONIUM SALT WATER Coupling Reaction (azo dyes) SODIUM CHLORIDE No need for mechanism but you need to be able to draw compounds. Diazonium salt reacts with phenylamine or other aromatic compounds to produce azo dyes. HCl is also produced. AQA A2 text book, p92-93 TRINITROTOLUENE, TNT No need for mechanism but need to be able to draw compounds. METHYLBENZENE AQA A2 text book, p93 conc. HNO3 conc. H2SO4 2-METHYL-1,3,5-TRINITROBENZENE FIEDEL-CRAFTS ACYLATION Mechanism • Generate the electrophile. Aluminium chloride and acyl chloride. • Electrophilic substitution(addition then elimination). • Electrophile is attracted to the delocalized electron. • C-H bond breaks and restores the stable delocalized electron structure. • Aluminium chloride is regenerated whren [AlCl4]- reacts with H+. BENZENE AQA A2 text book, p94 UNSTABLE POSITIVELY CHARGED INTERMEDIATE PHENYLETHANONE HYDROGEN CHLORIDE MAKING ALIPHATIC AMINES From Haloalkanes Excess ammonia reacting with primary haloalkanes. AMMONIA nucleophile NH3 base NH3 AMMONIUM SALT HALOALKANE HALIDE ION AMINE AMMONIUM HALIDE Mechanism • If you can do this you can describe • Amine acting as a nucleophile • Amine acting as a base • How to make secondary, tertiary amines and quarternary ammonium salts From Nitrile Amine can be made by reducing nitrile NITRILE AQA A2 text book, p100-107 4[H] LiAlH4 H2/Ni AMINE MAKING AROMATIC AMINES Reduction of aromatic nitro compounds NITROBENZENE WATER AMINE 6[H] NaOH conc.HCl/Sn or conc. HCl/Fe AQA A2 text book, p101 NH3+ INTERMEDIATE ZWITTERIONS Acting as a Base Accepting protons. NITROGEN IS PROTONATED AMINO ACID H+ With Acid HCl SALT AMINO ACID OH- NEGATIVE CHARGE ON OXYGEN With Base NaOH SALT Acting as an Acid Donating protons. AQA A2 text book, p108-109 WATER PROTEINS FROM AMINO ACIDS Amino group reacting with carboxylic group of another amino acid. PEPTIDE LINK Each link produces one water molecule. Condensation reaction. Can form ploymers (amino acids) AMINO ACID AMINO ACID AQA A2 text book, p110 DIPEPTIDE WATER AMINO ACIDS FROM PROTEINS Hydrolysis of peptide link. Heat Water AMINO ACID 6 moldm-3 HCl for 24 hours AMINO ACID DIPEPTIDE AQA A2 text book, p112 ADDITION POLYMERS Mechanism • Addition polymerisation • Involves one functional groups. • Carbon, carbon double bond. • Need to be able to identify repeating units Taught in AS Chemistry Unit 2. ALKENE Monomer AQA A2 text book, p114-115 AQA AS text book, p218-219 POLY(ALKENE) Polymer POLYESTERS Mechanism • Condensation polymerisation • Involves two functional groups. • Polyesters are formed from a dicarboxylic acid and a diol. • Carboxyl group forms an ester link with the hydroxy group. • Need to identify ester link. • Identify the repeating units. DICARBOXYLIC ACID POLYESTER DIOL WATER AQA A2 text book, p116-117 POLYAMIDES Mechanism • Condensation polymerisation • Involves two functional groups. • Polyamide are formed from a dicarboxylic acid and a diamines. • Hydroxyl group from dicarboxylic acid reacts with hydrogen attached to nitrogen of polyamide. • Forms an amide link. • Need to identify amide link. • Identify the repeating units. DICARBOXYLIC ACID POLYAMIDE DIAMINE WATER AQA A2 text book, p118-119 Questions on Nylon often appear on exams. BIODEGRADABLE POLYMERS Esters and amides can be hydrolysed by water, acids, alkalis and enzymes. This is the same for polyesters and polyamides. Break ester link or amide link! POLYAMIDE NaOH DICARBOXYLIC ACID DIAMINE SODIUM SALT OF DICARBOXYLIC ACID DIAMINE DICARBOXYLIC ACID DIAMINE With polyesters the secondary product is a diol. You need to be able to identify repeating units. AQA A2 text book, p120-121