Organic Lab Exam Review PDF
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Summary
This document provides a review of organic chemistry lab procedures and concepts, including safety guidelines, lab techniques, and theoretical details such as theoretical yield, limiting reagents, and percent yield. It also discusses principles of separation and purification techniques like recrystallization and extraction.
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Lab Safety and Guidelines - For a chemical splash, you must use the eyewash station provided for at least 15 mins - Cover all violate chemicals with a beaker or a watch glass - Corrosive chemicals: - Substances that cause visible destruction or permanent changes in human skin tis...
Lab Safety and Guidelines - For a chemical splash, you must use the eyewash station provided for at least 15 mins - Cover all violate chemicals with a beaker or a watch glass - Corrosive chemicals: - Substances that cause visible destruction or permanent changes in human skin tissue at the site of contact/ main classes include strong acids/bases and dehydrating agents - Immediately flush contaminated area with copious amounts of water - Flammable Liquids: - Chemicals that have a flash point below 100 F - If there is a spill: - Remove and turn off all sources of ignition - Are best removed through the use of spill pads - All used absorbent materials should be placed in heavy duty poly-bags which are sealed, labeled, and disposed - Disposing of excess acids/bases: - Neutralize any excess acid/base that you may be collecting by appropriately neutralizing it, check the pH paper and then pour it down the sink (Sodium bicarbonate is an example) - If there was organic solvent in the waste then it should not be poured down in the sink - Disposing of inorganic solid waste: - Inorganic solid waste (dry agents: CaCl2) can be disposed of into the biohazard waste boxes Lab A/B - Slides - An equivalent is the experimental ratio in which reactants are added to this reactions - Acetic anhydride and salicylic acid react in 1:1 ratio - Hydrolysis is base promoted, not base catalyzed because the base (OH-) is the nucleophile that adds to the ester and forms part of the product. It participated in the reaction and is not regenerated later - Hydrolysis of Triacylglycerols - Each triacylglycerol is a triester containing three long hydrocarbon side chains - Metabolism: Cleavage of three ester bonds forms Glycerol and three long chain-fatty acids - Hydrolysis of Lipid is the same as Hydrolysis of and ester Hydrolysis - Catalyzed by the enzyme lipases - Stoichiometry Review - Theoretical yield: The yield of reaction assuming 100% conversion of the limiting reactant to the product - Limiting reagent: The reactant that is present int he smallest amount and would limit the amount of product possible. The moles of product is determined by the moles of “Limiting reactant: on a molar equiv basis - Percent yield: is calculated based on the amount of products actually obtained in the experiment and the Theoretical yield: % yield = actual yield / theoretical yield * 100 - Multistep synthesis: The overall percent yield is determined by multiplying the yield of each step expressed as a decimal - Recrystallization - Purify a solid organic compound by using a stable solvent - Rule for selecting good solvent for recrystallization - The solid that you are trying to purify should be soluble int he hot solvent and insoluble in a cold/room temperature solvent - Vacuum filtration technique - Tech that is used to quickly and completely separate a solid from the liquid in which it is mixed - Tech. to keep in mind: - Direction of the ring stand (front facing) - Vacuum filter flask is firmly clamped - to prevent from tipping over - Uses an adapter to ensure a tight sequel between Buchner funnel and vacuum filter flask - Employs Heavy-walled rubber tubing - to prevent the tubing from collapsing from atmospheric pressure on the outside when the vacuum is applied. - Lab C - Slides - Miscible liquid pairs (acetone and water) are not suitable for extraction - Must have two immiscible liquids to carry out a liquid - liquid extraction - Extraction - a technique used for the isolation and purification of organic compounds (Separatory funnel) - Theory of extraction- always better to do several smaller extractions than one big one to maximize amount of material extracted and to increase the theoretical recovery - Ring clamp always attached to the ring stand for support in the separatory funnel/ use adding solutions using a pyrex funnel (125 mL funnel and 19 width/22 length in mm standard taper joint - Pressure can build up in the funnel due to formation of carbon dioxide/ always vent funnel inside the fume hood and point towards the back of the hood/ when draining remove glass stopper or it will not drain - Typical solvent mixture - Non-polar organic + polar aqueous - Most dense solvent: sinks to the bottom (aqueous layer) - Less dense solvent: floats to the top (organic layer) - Extraction Technique - Compounds partition between two layers- based on relative solubilities - Forces that control solubility- Van der Waals forces/Dipole - Dipole forces/ Hydrogen bonding - Like dissolves like - oil and water do not mix - Reaction mixtures can be separated in this way (Salt and ionic species are present in water layer & Most organic compounds in organic layer) - Drying with anhydrous inorganic salts (drying agents)/ combines water in the product and retains it as water of crystallization/ becomes free floating after enough is added Lab D: TLC - Slides - Chromatography “Color Writing” - Used as a qualitative analytical tool/simples economical method for separation of components/helps in following progress of a chemical reaction and effectiveness of a purification and conditions of macroscopic separations/ no restrictions on sample type- organic/ inorganic/ biological or medical/ highly sensitive - Types of Chromatographic Methods 1. TLC - Thin Layer Chromatography 2. LC - Liquid Chromatography (SP - Silica gel or Alumina; MP- a liquid) 3. HPLC - High Performance Liquid Chromatography (ultilze high pressure exerted by mechanical pumps to force the mobile phase through a very small diameter column packing that contains the stationary phase) 4. GC - Gas Chromatography (MP - a gas) - Silica Gel - most commonly used, inexpensive stationary phase - Extended covalent network of tetrahedral Si atoms bridged by “O” atoms - terminating in very polar Silanol (Si - OH) groups which creates a polar surface (CaSO4 helps silica gel binds to a plate) - Presence of OH groups created high polar energy - If reaction were to occur with only stationary phase then only the highly polar molecules would interact with the polar Si-OH bones which results in the slow movement of the TLC plate while quicker molecules is the result for less polar molecules because they hold less tightly to the Si-OH polars - Analysis of Thin Layer Chromatogram - Ratio to the front (Rf)/ Ration or distances or Retention Factor: - Rf = distance traveled by solute/ distance traveled by solvent - More polar/shorter distance traveled by the TLC - Less polar/ longer distance traveled by the TLC - Always spot on rough side/ spot lightly to avoid making a break in the silica gel coating which will hamper the separation Lab E: Diels-Alder Reaction - Slides - Cycloaddition reaction - A 1,4- addition of a 1,3-diene (conjugated diene) and an alkene (dienophile) to form a new six membered ring - Characteristics of a Diels-Alder Reaction 1. Thermal cycloaddition reaction 2. Concerted reaction 3. Three pi bonds break 4. Two new C-C sigma bonds and one new pi bond are formed in the product 5. Forms new six-membered rings - Diene Reactivity: Can only react in the s-cis conformation (diene becomes unusually reactive)/unreactive in the s-trans conformation - Dienophile Reactivity: Electron withdrawing groups makes the dienophile more electrophilic (more reactive) - We do not use 1,3-butadiene directly as it is a gas that requires the usage of special lab equipments not used in the lab which is why butadiene sulfone is used instead to generate 1,3-butadiene within the flask - Xylene is used as the heat which drives the reaction forward - Cis-dienophile forms cis-subsituted cyclohexene/Trans-dienophile forms a trans-substituted cyclohexene - CHWR(Chilled water return)(top): Water flows out the condenser/ CHWS(Chilled water supply)(bottom): Water flows into the condenser - Refluxing the Reaction - Purpose: To heat a reaction mixture at its boiling temp to form the product without losing any material inside the reaction flask - Adv: Maintains a constant temp in the reaction flask/ reaction is able to reach equilibrium with minimal evaporation of material inside the reaction flask - Adv of using 3-Sulfolene 1. Non-hygroscopic solid 2. Not a flammability hazard 3. Excess 1,3 butadiene and SO2 are gasses at room temp and are distilled out during reflux Lab F: Fisher Esterification Reaction - Slides - Refluxing the reaction - Purpose: to heat the reaction mixture at its boiling temperature (of the solvent/excess reactant) to form the product without losing any material inside the reaction flask - Adv: Maintains a constant temp./ reaction reaches equilibrium with minimal evaporation of material inside the reaction flask - Purification techniques - Recrystallization/ Thin Layer Chromatography/ Extraction - For liquids: Simple distillation - Used to separate two liquids where the bp differ by greater than 100 oC at 1 atm/ must be miscible in each other - A technique where a liquid is vaporized by heating to its bp, then re-condensed back to a liquid (distillate) which is collected in a receiving flask - Vacuum Distillation - Used for compounds that either boil at too high of a temperature or that decompose near their boiling point - Under vacuum- compounds can be distilled at temperature lower than their atmospheric bp - Only feasible solution for distilling compounds with BPs > 200 oC - Fractional Distillation - Used to separate liquid mixtures where the diff in bp in less than 100 oC at 1 atm - Fractionating column (Vigreux column) is inserted between the 3-way distillation adapter and the round bottom flask (distillation flask)- providing a larger SA over which a number of separate liquid-vapor equilibria can occur - Many vaporizations and condensations take place before the distiller is collected - Efficiency of a fractionating column - expressed by number of theoretical plates - We don’t use fractionating distillation because we actually want the product - One Theoretical plate: Equiv to one simple distillation cycle - Factors affecting BP: - Size (molecular weight) - Intermolecular Interactions - Waste Disposal - Red Sharps: All glass - Biohazard: gloves, paper towels - Silica goes in powder waste (inhalation hazard) - Acetone goes in non halogenated unless they were used to clean DCM - 10% Ethanol DCM = most polar - everything elutes - DCM alone = nonpolar - nothing elutes IR Spectroscopy - An Infrared Spectrum - IR Spectroscopy- primary used to detect functional groups present - IR Absorptions: arise due to stretching and bending of covalent bonds in molecules - 100% transmittance = all light shone is transmitted, none absorbed - 0% transmittance = none of the light shone is transmitted, all is absorbed - The functional group (diagnostic region) - determines the functional group present - The fingerprint region - used for structure elucidation by spectral comparison - Wavenumber is proportional to frequency (v) - Wavenumber is inversely proportional to wavelength ( - Infrared Spectroscopy - IR absorption: Four regions of the IR NMR Spectroscopy - Nuclear Magnetic Resonance - Nuclei possess charge and can spin - Spinning charges generate a magnetic dipole - Magnetic Dipoles: characterized by nuclear magnetic spin quantum number “I” - Three Cases of “I” 1. I = 0 a. Have an even number of protons/neutrons b. Do not spin- hence do not interact with applied magnetic field i. 12C, 16O 2. I = ½ a. Nuclei are NMR visible examples: 1H, 13C (non-radioactive isotopes of C, 1.06% natural abundance) 3. I > ½ a. Examples, 2H and 14N- difficult to observe - More nuclei are aligned with the externally applied magnetic field or the lower energy a-spin state - Delta E: Energy difference between a and b-spin states - Increasing the applied magnetic field = increasing delta E between spin states - Nuclei can absorb energy and flip from the a-spin state to the b-spin state. When this happens, the nucleus is said to be in RESONANCE with the applied magnetic field, hence the term: “Nuclear Magnetic Resonance” - The difference in energy delta E between the two spin states corresponds to a frequency in the Radiofrequency region of the EM spectrum - Planck’s equation: deltaE = hv - Chemical shift: - Position of the peak: Frequency difference between the resonance observed for the nucleus and the resonance observed for the reference compound (usually TMS)