Textbook Question
Compare the properties of propan-2-ol (I) and the hexafluoro analog (II).
(a) Compound II has almost triple the molecular weight of I, but II has a lower boiling point. Explain.
547
views
Ch.10 - Structure and Synthesis of Alcohols
Wade9th EditionOrganic ChemistryISBN: 9780135213728
Not the one you use?Change textbookSelect a different textbook
Table of contents
- Ch.1 - Structure and Bonding107
- Ch. 2 - Acids and Bases; Functional Groups115
- Ch.3 - Structure and Stereochemistry of Alkanes100
- Ch.4 - The Study of Chemical Reactions99
- Ch.5 - Stereochemistry93
- Ch.6 - Alkyl Halides; Nucleophilic Substitution118
- Ch. 7 - Structure and Synthesis of Alkenes; Elimination158
- Ch.8 - Reactions of Alkenes171
- Ch.9 - Alkynes91
- Ch.10 - Structure and Synthesis of Alcohols143
- Ch.11 - Reactions of Alcohols104
- Ch. 12 - Infrared Spectroscopy and Mass Spectrometry22
- Ch. 13 - Nuclear Magnetic Resonance Spectroscopy45
- Ch. 14 - Ethers, Epoxides, and Thioethers72
- Ch. 15 - Conjugated Systems, Orbital Symmetry, and Ultraviolet Spectroscopy89
- Ch. 16 - Aromatic Compounds74
- Ch. 17 - Reactions of Aromatic Compounds126
- Ch. 18 - Ketones and Aldehydes193
- Ch. 19 - Amines129
- Ch. 20 - Carboxylic Acids77
- Ch. 21 - Carboxylic Acid Derivatives141
- Ch. 22 - Condensations and Alpha Substitutions of Carbonyl Compounds175
- Ch. 23 - Carbohydrates and Nucleic Acids93
- Ch. 24 - Amino Acids, Peptides, and Proteins54
Chapter 10, Problem 52f
Devise a synthesis for each compound, starting with methylenecyclohexane and any other reagents you need.
f. 1-(phenylmethyl)cyclohexanol
Verified step by step guidance1
Step 1: Begin with methylenecyclohexane as the starting material. Perform a hydroboration-oxidation reaction to convert the alkene into an alcohol. Use BH₃·THF (borane-tetrahydrofuran complex) followed by H₂O₂ (hydrogen peroxide) and NaOH (sodium hydroxide) to yield cyclohexanol.
Step 2: Prepare benzyl bromide (C₆H₅CH₂Br) as the source of the phenylmethyl group. Benzyl bromide can be obtained by reacting toluene (C₆H₅CH₃) with bromine (Br₂) in the presence of light or a radical initiator.
Step 3: Perform a Williamson ether synthesis to attach the phenylmethyl group to cyclohexanol. First, convert cyclohexanol into cyclohexoxide by treating it with a strong base such as NaH (sodium hydride). Then, react cyclohexoxide with benzyl bromide to form 1-(phenylmethyl)cyclohexanol.
Step 4: Ensure stereochemical control during the synthesis, as the reaction may produce a mixture of stereoisomers. If necessary, use purification techniques such as recrystallization or chromatography to isolate the desired product.
Step 5: Verify the structure of the final product, 1-(phenylmethyl)cyclohexanol, using spectroscopic methods such as NMR (nuclear magnetic resonance) and IR (infrared spectroscopy) to confirm the presence of the phenylmethyl group and hydroxyl functionality.
Verified video answer for a similar problem:
This video solution was recommended by our tutors as helpful for the problem above.
Video duration:
3mWas this helpful?
Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Synthesis in Organic Chemistry
Synthesis in organic chemistry refers to the process of constructing complex organic compounds from simpler ones through a series of chemical reactions. Understanding the synthesis pathway is crucial for determining the necessary reagents and conditions required to achieve the desired product. This involves knowledge of functional group transformations, reaction mechanisms, and the reactivity of different organic compounds.
Recommended video:
Guided course
00:56
What is an organic molecule?
Reagents and Reaction Mechanisms
Reagents are substances used in chemical reactions to facilitate the transformation of reactants into products. Each reagent can influence the reaction pathway and the final structure of the compound. Familiarity with common reagents and their mechanisms—such as nucleophilic substitutions, electrophilic additions, and reductions—is essential for planning a successful synthesis.
Recommended video:
Guided course
06:50Jones Reagent Mechanism
Functional Groups and Their Transformations
Functional groups are specific groups of atoms within molecules that determine the chemical properties and reactions of those molecules. In the synthesis of 1-(phenylmethyl)cyclohexanol, recognizing the functional groups present in methylenecyclohexane and the target compound is vital. This knowledge allows chemists to identify appropriate reactions that can introduce or modify these functional groups to achieve the desired compound.
Recommended video:
Guided course
02:36Identifying Functional Groups
Related Practice
Textbook Question
Compounds containing deuterium (D = 2H) are useful for kinetic studies and metabolic studies with new pharmaceuticals. One way to introduce deuterium is by using the reagent LiAlD4, equivalent in reactivity to LiAlH4. Show how to make these deuterium-labeled compounds, using LiAlD4 and D2O as your sources of deuterium, and any non-deuterated starting materials you wish.
(b) CH3CD2OH
843
views
Textbook Question
Devise a synthesis for each compound, starting with methylenecyclohexane and any other reagents you need.
c. 1-(hydroxymethyl)cyclohexanol
901
views
Textbook Question
Devise a synthesis for each compound, starting with methylenecyclohexane and any other reagents you need.
b. cyclohexylmethanol
1504
views
Textbook Question
Compounds containing deuterium (D = 2H) are useful for kinetic studies and metabolic studies with new pharmaceuticals. One way to introduce deuterium is by using the reagent LiAlD4, equivalent in reactivity to LiAlH4. Show how to make these deuterium-labeled compounds, using LiAlD4 and D2O as your sources of deuterium, and any non-deuterated starting materials you wish.
a. CH3CHDOH
1387
views
Textbook Question
Devise a synthesis for each compound, starting with methylenecyclohexane and any other reagents you need.
d. trans-2-methylcyclohexanol
1015
views