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Chapter 5: Stereoisomers

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1 Chapter 5: Stereoisomers
NOT Constitutional Isomers (Connectivity is the Same) Include cis/trans Isomers Seen in Substituted Alkenes Enantiomers: Nonsuperposable Mirror Images Diastereomers: Stereoisomers; Not Mirror Images All Enantiomers are Diastereomers; NOT all Diastereomers are Enantiomers This Chapter: Classifying and Naming Stereoisomers; Recognizing Chiral Atoms and Molecules

2 Isomers: The Flavors We Want to Give an Isomer the Most Specific Classification The We Can (More Information) Constitutional Isomers: Different Connectivity Stereoisomers: How to Identify/Distinguish These??

3 Enantiomers and Chirality
Enantiomers Only Occur With Chiral Molecules A Chiral Molecule and its Mirror Image: Pair of Enantiomers Molecules with Superposable Mirror Images: Achiral Universal Chirality Test: Nonsuperposability of Mirror Image Left and Right Hands are Chiral Your Instructors Crutches are Achiral

4 Enantiomers (2): Molecules—CHFBrCl
R and S Designations Indicate “Handedness” of Enantiomer Superposable Mirror Images? Build the Models and See.

5 Checking for Chirality
Identify Asymmetric Carbon Atoms (4 Different Substituents) These are Chiral Centers (Atoms) Also Called Stereogenic Centers (Carbons, Atoms) Stereogenic Center: Exchange 2 Groups, Get New Stereoisomer If all Tetrahedral Atoms have Two or More Like Groups: Achiral Any Sterogenic Centers Can be Assigned an (R) or (S) Label These Labels were Used on the Previous Slide; How do we Determine These Designations?

6 Enantiomer Nomenclature: R and S
Identify Asymmetric Carbons Assign Priorities to the Substituents Attached Atoms of Higher Atomic # Get Higher Priority If Two or More Directly Attached Atoms are Alike, Go to Next Attached Atoms Count Double Bonded C, O etc. as Two Attached Atoms Continue Expanding Out One Atom Set Until All Four Substituents on Stereogenic Carbons are Differentiated

7 Enantiomer Nomenclature: R and S
Stereogenic Carbon H atom: Lowest Priority OH Group (O Directly Bonded) Highest Priority Two Carbon Groups: CHO (aldehyde) Higher than CH3 (methyl)

8 Enantiomer Nomenclature: R and S
4 1 2 Stereogenic Carbon (R) Enantiomer 3 Want Low Priority Group Pointed “Back” Look at Spatial Arrangement of Groups 1-3 Clockwise “Rotation” Means (R); Counterclockwise (S)

9 Enantiomer Nomenclature: R and S
If Low Priority Group Is Not “Back”; Must Rotate Molecule Alternatives If Low Group “Out”; Take Opposite Designation Advisable to Draw Rotated Structures on Paper Best Way to be Sure: BUILD THE MODEL Let’s Apply This to Some Wedge and Dash Structures

10 Racemic Mixtures (Racemates)
Racemates (Racemic Mixtures): 50/50 Mixes of Enantiomers Mixture Causes no Net Rotation of Plane Polarized Light Racemic Form Designation: Often (±) Remember Racemic Forms Later With SN1 Reactions Enantiomeric Excess of Racemate = 0 (By Definition) If one Enantiomer in Excess; can Calculate %ee %ee = percent enantiomeric excess

11 Molecules with Multiple Stereocenters
Generally, Will Have 2n Stereoisomers Consider 2,3-Dibromopropane; Here are 2 Enantiomers Wedge/Dash Fischer Projection

12 Molecules with Multiple Stereocenters (2)
Consider 2,3-Dibromobutane; No Longer 2n Stereoisomers Enantiomers Meso Compounds

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