Search Results - "nuclear magnetic resonance"

Organic Chemistry by McMurry, John

Click Here to View Status and Holdings.

Chemical Analysis Modern Instrumentation Methods and Techniques by Rouessac, Francis, Rouessac, Annick

Table of Contents: “…Spectroscopic Methods -- Ultraviolet and visible absorption spectroscopy -- Infrared spectroscopy -- Flurorimetry and chemiluminescence -- X-ray fluorescence spectroscopy -- Atomic absorption and flame emission spectroscopy -- Atomic emission spectroscopy -- Nuclear magnetic resonance spectroscopy -- Part 3. Other Methods -- Mass spectrometry -- Labelling methods -- Elemental analysis -- Potentiometric methods -- Voltammetric and coulometric methods -- Sample preparation -- Basic statistical parameters -- Solutions -- Appendix -- List of acronyms.…”
Click Here to View Status and Holdings.

Principles of physical biochemistry by Van Holde, K. E. 1928- Kensal Edward, Ho, Pui Shing, Johnson, W. Curtis

Click Here to View Status and Holdings.

Separation, purification and identification

Click Here to View Status and Holdings.

New Techniques in Nutritional Research by Whitehead, Roger

Click Here to View Status and Holdings.

Characterisation of immunostimulatory compounds in stretococcus pneumoniae towards understanding the host pathogen interaction by Ezarina Abdul Rahim

Click Here to View Status and Holdings.

ORGANIC CHEMISTRY by Clayden, Jonathan, Greeves, Nick, Warren, Stuart, Wothers, Peter

Table of Contents: “…Further reading3 Determining organic structures; Introduction; Mass spectrometry; Mass spectrometry detects isotopes; Atomic composition can be determined by high-resolution mass spectrometry; Nuclear magnetic resonance; Regions of the [sup(13)]C NMR spectrum; Different ways of describing chemical shift; A guided tour of the [sup(13)]C NMR spectra of some simple molecules; The [sup(1)]H NMR spectrum; Infrared spectra; Mass spectra, NMR, and IR combined make quick identification possible; Double bond equivalents help in the search for a structure; Looking forward to Chapters 13 and 18. …”
Click Here to View Status and Holdings.

A SMALL SCALE APPROACH TO Organic Laboratory Techniques by Pavia, Donald L, Lampman, Gary M, Kriz, George S, Engel, Randall G

Table of Contents: “…Technique 26. Nuclear Magnetic Resonance Spectroscopy (Proton NMR). Technique 27. …”
Click Here to View Status and Holdings.

Introduction to Organic Laboratory Techniques A Small-Scale Approach by Engel, Randall G., Pavia, Donald L., Lampman, Gary M., Kriz, George S.

Table of Contents: “…Purpose.Part One: The Techniques.Technique 1: Laboratory Safety.Technique 2: The Laboratory Notebook, Calculations, and Laboratory Records.Technique 3: Laboratory Glassware: Care and Cleaning.Technique 4: How to Find Data for Compounds: Handbooks and Catalogs.Technique 5: Measurement of Volume and Weight.Technique 6: Heating and Cooling Methods.Technique 7: Reaction Methods.Technique 8: Filtration.Technique 9: Physical Constants of Solids: The Melting Point.Technique 10: Solubility.Technique 11: Crystallization: Purification of Solids.Technique 12: Extractions, Separations, and Drying Agents.Technique 13: Physical Constants of Liquids: The Boiling Point and Density.Technique 14: Simple Distillation.Technique 15: Fractional Distillation, Azeotropes.Technique 16: Vacuum Distillation, Manometers.Technique 17: Sublimation.Technique 18: Steam Distillation.Technique 19: Column Chromatography.Technique 20: Thin-Layer Chromatography.Technique 21: High-Performance Liquid Chromatography (HPLC).Technique 22: Gas Chromatography.Technique 23: Polarimetry.Technique 24: Refractometry.Technique 25: Infrared Spectroscopy.Technique 26: Nuclear Magnetic Resonance Spectroscopy (Proton NMR).Technique 27: Carbon-13 Nuclear Magnetic Resonance Spectroscopy.Technique 28: 6 Mass Spectrometry.Technique 29: Guide to the Chemical Literature.Part Two: Introduction to Basic Laboratory Techniques.Experiment 1: Solubility.Experiment 2: Crystallization.Experiment 3: Extraction.Experiment 4: A Separation and Purification Scheme.Experiment 4A: Extractions with a Separatory Funnel.Experiment 5: Chromatography.Experiment 5A: Thin-Layer Chromatography.Experiment 5B: Selecting the Correct Solvent for Thin-Layer Chromatography.Experiment 5C: Monitoring a Reaction with Thin Layer Chromatography.Experiment 5D: Column Chromatography.Experiment 6: Simple and Fractional Distillation.Experiment 7: Infrared Spectroscopy and Boiling-Point Determination.Experiment 8: Acetylsalicylic Acid.Experiment 9: Acetaminophen.Experiment 10: TLC Analysis of Analgesic Drugs.Experiment 11: Isolation of Caffeine.Experiment 11A: Extraction of Caffeine from Tea.Experiment 11B: Isolation of Caffeine from a Tea Bag.Experiment 12: Isopentyl Acetate (Banana Oil).Experiment 13: Isolation of Eugenol from Cloves.Experiment 14: Spearmint and Caraway Oil: (+)- and (-)-Carvones.Experiment 15: Isolation of Chlorophyll and Carotenoid Pigments from Spinach.Experiment 16: Ethanol from Sucrose.Part Three: Introduction to Molecular Modeling.Experiment 17: An Introduction to Molecular Modeling.Experiment 17A: The Conformations of n-Butane: Local Minima.Experiment 17B: Cyclohexane Chair and Boat Conformations.Experiment 17C: Substituted Cyclohexane Rings (Critical Thinking Exercise).Experiment 17D: cis- and trans-2-Butene.Experiment 18: Computational Chemistry.Experiment 18A: Heats of Formation: Isomerism, Tautomerism, and Regioselectivity.Experiment 18B: Heats of Reaction: SN1 Reaction Rates.Experiment 18C: Density-Electrostatic Potential Maps: Acidities of Carboxylic Acids.Experiment 18D: Density-Electrostatic Potential Maps: Carbocations.Experiment 18E: Density-LUMO Maps: Reactivities of Carbonyl Groups.Part Four: Preparations and Reactions of Organic Compounds.Experiment 19: Reactivities of Some Alkyl Halides.Experiment 20: Nucleophilic Substitution Reactions: Competing Nucleophiles.Experiment 20A: Competitive Nucleophiles with 1-Butanol or 2-Butanol.Experiment 20B: Competitive Nucleophiles with 2-Methyl-2-Propanol.Experiment 20C: Analysis.Experiment 21: Synthesis of n-Butyl Bromide and t-Pentyl Chloride.Experiment 21A: n-Butyl Bromide.Experiment 21B: t-Pentyl Chloride.Experiment 22: 4-Methylcyclohexene.Experiment 23: Methyl Stearate from Methyl Oleate.Experiment 24: Gas-Chromatographic Analysis of Gasolines.Experiment 25: Biodiesel.Experiment 25A: Biodiesel from Coconut Oil.Experiment 25B: Biodiesel from Other Oils.Experiment 25C: Analysis of Biodiesel.Experiment 26: Ethanol from Corn.Experiment 27: Chiral Reduction of Ethyl Acetoacetate; Optical Purity Determination.Experiment 27A: Chiral Reduction of Ethyl Acetoacetate.Experiment 27B: NMR Determination of the Optical Purity of Ethyl (S)-3-Hydroxybutanoate.Experiment 28: Nitration of Aromatic Compounds Using a Recyclable Catalyst.Experiment 29: Reduction of Ketones Using Carrots as Biological Reducing Agents.Experiment 30: Resolution of (+/-)-a-Phenylethylamine and Determination of Optical Purity.Experiment 30A: Resolution of (+/-)-a-Phenylethylamine.Experiment 30B: Determination of Optical Purity Using NMR and a Chiral Resolving Agent.Experiment 31: An Oxidation-Reduction Scheme: Borneol, Camphor, Isoborneol.Experiment 32: Multistep Reaction Sequences: The Conversion of Benzaldehyde to Benzilic Acid.Experiment 32A: Preparation of Benzoin by Thiamine Catalysis.Experiment 32B: Preparation of Benzil.Experiment 32C: Preparation of Benzilic Acid.Experiment 33: Triphenylmethanol and Benzoic Acid.Experiment 33A: Triphenylmethanol.Experiment 33B: Benzoic Acid.Experiment 34: Aqueous-Based Organozinc Reactions.Experiment 35: Sonogashira Coupling of Iodosubstituted Aromatic Compounds with Alkynes using a Palladium Catalyst.Experiment 36: Grubbs Catalyzed Metathesis of Eugenol with 1,4-Butenediol to Prepare a Natural Product.Experiment 37: The Aldol Condensation Reaction: Preparation of Benzalacetophenones (Chalcones).Experiment 38: A Green Enantioselective Aldol Condensation Reaction.Experiment 39: Preparation of an a,b-Unsaturated Ketone via Michael and Aldol Condensation Reactions.Experiment 40: Preparation of Triphenylpyridine.Experiment 41: 1,4-Diphenyl-1,3-Butadiene.Experiment 42: Relative Reactivities of Several Aromatic Compounds.Experiment 43: Nitration of Methyl Benzoate.Experiment 44: Benzocaine.Experiment 45: N,N-Diethyl-m-toluamide: The Insect Repellent OFF".Experiment 46: Sulfa Drugs: Preparation of Sulfanilamide.Experiment 47: Preparation and Properties of Polymers: Polyester, Nylon, and Polystyrene.Experiment 49A: Polyesters.Experiment 49B: Polyamide (Nylon).Experiment 49C: Polystyrene.Experiment 49D: Infrared Spectra of Polymer Samples.Experiment 48: Ring-Opening Metathesis Polymerization (ROMP) Using a Grubbs Catalyst: A Three-Step Synthesis of a Polymer.Experiment 48A: Diels-Alder Reaction of Furan and Maleic Anhydride.Experiment 48B: Ring Opening of Anhydride in Methanol.Experiment 48C: Ring-Opening Metathesis Polymerization (ROMP).Experiment 48A: Diels-Adler Reaction.Experiment 48B: Conversion of the Diels-Adler Adduct to the Diester.Experiment 48C: Synthesizing the Polymer by Ring-Opening Metathesis Polymerization (ROMP).Experiment 49: The Diels-Alder Reaction of Cyclopentadiene with Maleic Anhydride.Experiment 50: Diels-Alder Reaction with Anthracene-9-methanol.Experiment 51: Photoreduction of Benzophenone and Rearrangement of Benzpinacol to Benzopinacolone.Experiment 51A: Photoreduction of Benzophenone.Experiment 51B: Synthesis of b-Benzpinacolone: The Acid-Catalyzed Rearrangement of Benzpinacol.Experiment 52: Luminol.Experiment 53: Analysis of A Diet Soft Drink by HPLC.Experiment 54: Carbohydrates.Part Four: Identification of Organic Substances.Experiment 55: Identification of Unknowns.Experiment 55A: Solubility Tests.Experiment 55B: Tests of the Elements (N, S, X).Experiment 55C: Tests for Unsaturation.Experiment 55D: Aldehydes and Ketones.Experiment 55E: Carboxylic Acids.Experiment 55F: Phenols.Experiment 55G: Amines.Experiment 55H: Alcohols.Experiment 55I: Esters.Part Six: Project-Based Experiments.Experiment 56: Preparation of a C-4 or C-5 Acetate Ester.Experiment 57: Isolation of Essential Oils from Allspice, Caraway, Cinnamon, Cloves, Cumin, Fennel, or Star Anise.Experiment 57A: Isolation of Essential Oils by Steam Distillation.Experiment 57B: Identification of the Constituents of Essential Oils by Gas Chromatography-Mass Spectrometry.Experiment 57C: Investigation of the Essential Oils of Herbs and Spices-A Mini-Research Project.Experiment 58: Competing Nucleophiles in SN1 and SN2 Reactions: Investigations Using 2-Pentanol and 3-Pentanol.Experiment 59: Friedel-Crafts Acylation.Experiment 60: The Analysis of Antihistamine Drugs by Gas Chromatography-Mass Spectrometry.Experiment 61: Carbonation of an Unknown Aromatic Halide.Experiment 62 The Aldehyde Enigma.Experiment 63 Synthesis of Substituted Chalcones: A…”
Click Here to View Status and Holdings.