Grignard Synthesis of Triphenylmethanol ..

The purpose of this experiment is to synthesis triphenylmethanol by using Grignard reagent
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Using the Grignard Reaction to Prepare Triphenylmethanol By: ..

Part III: The Experiments
Amide Synthesis: Acetanilide
Alkyl Halide Reactivities in Nucleophilic Substitution Reactions
Benzoin Condensation—Microwave Catalyzed and Non-Microwave Catalyzed Procedures
Bromination of an Alkene
Distillation Experiment
The Synthesis of Hexaphenylbenzene
Infrared Spectroscopy
Synthesis of Aspirin—Microwave Catalyzed and Non-Microwave Catalyzed Procedures
A Greener Suzuki Reaction
Iodination of Salicylamide
Microwave Synthesis of a Natural Insecticide
Molecular Modeling Experiment—The Effect of Molecular Structure on Conjugation
Molecular Modeling Experiment—Rotational Studies of 2-Bromobutane and Inquiries towards E2 Eliminations
Molecular Modeling Experiment—Friedel-Crafts Alkylation Reaction
An Aerobic Alcohol Oxidation Using a Copper(I)/TEMPO Catalyst
Preparation of Benzil
Preparation of Triphenylmethanol
Separation of a Mixture
Stereoselective Reduction of Camphor
Tetraphenylcyclopentadienone
Thin-Layer Chromatography of Substances
The Wittig Reaction

08/03/2017 · View Lab Report - Synthesis of Triphenylmethanol and the Trityl Carbocation from CH 237 at The University of Alabama. Olivia Hurst Experiment 30 …
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The synthesis of a Grignard reagent was required ..

One of the most challenging aspects of learning organic chemistry is devising sequences of reactions that will lead from a designated starting.
Experiment 3 Multistep Synthesis; Spring 2013.

Triphenylmethanol from Benzophenone and Bromobenzene
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Part I: Preliminary Materials
Safety First, Last, and Always
Laboratory Safety Acknowledgment (2 copies)
Best Practices, Advice, Suggestions
A Guide to the Chemical Literature
What Is Green Chemistry?
Organic Lab Check-In/Out Sheet (2 copies)Part II: The Techniques
Distillation
Drying Agents
Extraction
Melting-Point
Recrystallization
Reflux
Refractive Indices
Sublimation
Thin-Layer Chromatography
Vacuum FiltrationPart III: The Experiments
Amide Synthesis: Acetanilide
Alkyl Halide Reactivities in Nucleophilic Substitution Reactions
Benzoin Condensation—Microwave Catalyzed and Non-Microwave Catalyzed Procedures
Bromination of an Alkene
Distillation Experiment
The Synthesis of Hexaphenylbenzene
Infrared Spectroscopy
Synthesis of Aspirin—Microwave Catalyzed and Non-Microwave Catalyzed Procedures
A Greener Suzuki Reaction
Iodination of Salicylamide
Microwave Synthesis of a Natural Insecticide
Molecular Modeling Experiment—The Effect of Molecular Structure on Conjugation
Molecular Modeling Experiment—Rotational Studies of 2-Bromobutane and Inquiries towards E2 Eliminations
Molecular Modeling Experiment—Friedel-Crafts Alkylation Reaction
An Aerobic Alcohol Oxidation Using a Copper(I)/TEMPO Catalyst
Preparation of Benzil
Preparation of Triphenylmethanol
Separation of a Mixture
Stereoselective Reduction of Camphor
Tetraphenylcyclopentadienone
Thin-Layer Chromatography of Substances
The Wittig ReactionPart IV: Appendices
Appendix I – Microkit Glassware, Other Glassware and Equipment
Appendix II – Concentrated Acids and Bases
Appendix III – Common Organic Solvents
Appendix IV – Problem-Solving Hints for Spectral Interpretation

Grignard Lab Report - College Listed
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