Introduction to Organic Chemistry · 2018. 1. 30. · Chemistry of carbon comp’d organic...
Transcript of Introduction to Organic Chemistry · 2018. 1. 30. · Chemistry of carbon comp’d organic...
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PART 1
Introduction to Organic Chemistry
Chapter 1. Structure, bonding, acid-base2. Nomenclature, physical properties,
drawing structure
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Chapter 1
Structure and BondingAcids and Bases
Electronic structureChemical bondsAcid-base
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vital force theory by Berzelius, 1807 compounds from living organisms ~ ‘organic’ comp’ds from minerals ~ ‘inorganic’
death of VFT synthesis of urea (‘organic’) from ‘inorganic’ Wöhler, 1828
the current definition of organic comp’ds “compounds that contain carbon”
Organic compounds Ch 1 #3
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VFT is dead!! VFT-1: Organic compounds from living organism (plant or
animal) only
VFT-2: An organic compound still contains some of the life force of the organism that makes them. vitamin C, saponin, etc
natural vs synthetic (p3) Vitamin C is vitamin C!
vitamin C ≡ L-ascorbic acid
Ch 1 #4
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Chemistry of carbon comp’d organic chemistry = chemistry of carbon comp’d
why carbon? forms stable covalent bond to other carbon sharing electrons Li+, F- vs C4+ or C4-
forms chain variety (16M org comp’ds)
forms bonds to heteroatoms (O, N, S, P, X, etc.)
exceptions: CO, CO2, Na2CO3, etc. ~ inorganic
Ch 1 #5
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Components of org chem organic compounds structure molecule bonding atoms
properties physical
chemical
Chapter 1, 2, 3, 5, 7
organic (chemical) reactions mechanism
thermodynamics
kinetics
Chapter 4, 6, 8, 9, 10, 11
Ch 1 #6
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In org chem 1…Chapter
1. electronic structure and bondingacid-base
2. nomenclature, physical propertiesstructure drawing, alkanes
3,4. alkenes
5. stereochemistry
6. alkynes
7. resonance structure
8-10. substitution and elimination reactions
11. organometallics
Ch 1 #7
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Structure of an atomDefine the followings atomic number
mass number
isotope
allotrope
atomic weight
atomic mass
molecular weight [molar mass]
amu
Ch 1 #8
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Electronic structure of an atom quantum mechanics (Schrödinger) wave equation – wave function [orbital]
quantum numbers – shell – sub-shell [orbital]
electronic configuration ~ distribution of e in orbital aufbau principle ~ ‘building-up’
Pauli exclusion principle ~ two e with opposite spin
Hund’s rule ~ degenerate orbitals
Ch 1 #9
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Bonding core vs valence electron
octet rule by Lewis ~ ‘Lewis structure’
8 e at valence shell ~ stable atom
Atoms lose, gain, or share eto satisfy octet rule and form bonding. ~ ‘Lewis theory’
Ch 1 #10
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Ionic bond atom ion bonding
ionic compound ionic solid high mp
strong bond + network
ionic molecule?
Ch 1 #11
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Covalent bond sharing e
valency mono, di, tri, or tetravalent
covalent comp’d ‘molecule’
weak intermol interaction
Ch 1 #12
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Polar (covalent) bond primary bonds ~ ionic or covalent
polar bond ∆ in electronegativity of atoms EN ~ ability to attract e
EN value not absolutebut relative
Ch 1 #13
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polar bond, polar molecule, dipole dipole moment µ = e d e ~ (partial) charge on the atom
d ~ distance betw charges
Read p12 and solve Prob 8 and 9!
Ch 1 #14
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Atomic radius and electronegativity
Both determined by nuclear charge (# of protons)
# of shells (position of e)
Ch 1 #15
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(electrostatic) potential map e distribution, (partial) charge distribution
size and shape of molecule
reactivity and reactive site (relative) size of Hin LiH, H2, HF
Ch 1 #16
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Covalent ions covalent compounds containing charge ion no ionic bond, though
charge = # of protons - # electrons for NH4, 7 + 4 – 10 = 1
neutral neutral covalent ionmolecule molecule ion
Ch 1 #17
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Formal charge charge assigned to an atom in a molecule charge distribution among atoms in a covalent species (ionic
or neutral)
FC = [# of valence e] – [# of e it owns]= [# val e] – [# non-bonding e + ½ (# bonding e)]
non-bonding electrons = lone-pair e’s = unshared pair of e’s
Ch 1 #18
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Octet rule, formal charge, and stability CH4 vs CH3 radical
HCN vs HNC
H:C:::N: :C:::N:H
H
CH
H
H
C HH
H
satisfying octet rule NOT satisfying octet rulestable [not reactive] unstable [(very) reactive]
satisfying octet rule satisfying octet ruleformal charge ~ 0 0 0 formal charge ~ -1 +1 0stable unstable (actually, not likely present)
−:CH3
+CH3
Ch 1 #19
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Valency # of bonds with no formal charge
if formal charge
for carbon carbocation ~ species containing C+
carbanion ~ species containing C-
radical ~ species w/ •
monovalent divalent trivalent tetravalent
oxonium ion
Ch 1 #20
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Drawing Lewis structure Arrange the atoms. from center to peripheral ~ C, N, O, then X and H
Bond atoms (with e) satisfying octet rule.
Assign (formal) charge if needed.
Practice. Prob 14 p16
CH4O
C2H4
Ch 1 #21
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Representing [drawing] structures Lewis structure ~ valence e’s
Kekule structure ~ bond as line, no : line(-bond) structure
condensed structure ~ no bond, if not necessary
skeletal structure ~ bonds only bond-line structure
a line for a bond; not showing C and H bonded to C
Section 2.6 p78
OH
Ch 1 #22
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Table 1.5 p18
N
O
O
CH3CH2C(O)CH3
COOH
OH
O-C(=O)OH, -C(O)OH
-C(=O)H, -C(O)H
Ch 1 #23
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Atomic orbitals (AO) AO describe the location of e (probability) density in atom quantum mechanics (Schrodinger eqn)
quantum numbers orbital
s orbitals
node where wave function is zero
no electron density
An e behaves like a standing wave.
+-
Ch 1 #24
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p orbitals
3 p orbitals
lobe knob
Ch 1 #25
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Molecular orbitals (MO) MO describes the location of e density in molecule combination of AO’s bonding MO
bond in particle sense
energy released= bond strength= bond dissociation energy
bond length
H2
Ch 1 #26
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bond in wave sense conservation of orbitals ~ 2 AO’s 2 MO’s AO’s in-phase ~ reinforcing ~ overlap bonding MO
AO’s out-of-phase ~ cancelling ~ node antibonding MO
same e configuration in AO and in MO aufbau, exclusion
2 e in σ BMO, no e in σ* AMO σ bond
σ bond head-on overlap
H2
σ
σ∗
Ch 1 #27
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bond order # of bonds betw atoms
(# bonding e - # antibonding e)/2
for H2, bond order = (2 – 0)/2 = 1 ~ single bond
Prob 20 p23 He2+ exist?
H2
σ
σ∗
Ch 1 #28
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π bond side-to-side overlap
π BMO and π* AMO
weaker than σ bond
Prob 21 p25 σ, σ*, π, or π*?
π*
π
Ch 1 #29
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Single bond and sp3 hybridization Experimental data for methane [CH4] shows 4 identical bonds
with tetrahedral geometry. tetrahedral VSEPR theory
VSEPR theory determines molecular shape.
≈ sawhorse drawing
Ch 1 #30
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valence-shell e pair repulsion (VSEPR) theoryRule 1: VSEPs (bonding or non-bonding) repel each other
Rule 2: Lone pair repels more.
Rule 3: Double and triple bonds as one EP
Ch 1 #31
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hybridization [混成化] ~ to bond well (or to explain well)
bonding 4 sp3-1s bonds repulsion tetrahedral
energy required
energy released
energy out > in bond thru hybridization
club
VSEPR-1
Ch 1 #32
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ethane [CH3CH3]
bond angles all 109.5º?not exactly (111.5º and 107.5º)
Ch 1 #33
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Double bond and sp2 hybridization Ethene [ethylene, CH2=CH2] is planar.
hybridization
bonding
VSEPR-3
Ch 1 #34
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double bond 1 σ + 1 π
shorter and stronger than single bond C=C ~ 1.33 Å, 174 kcal/mol
C-C ~ 1.54 Å, 90 kcal/mol
174 < 90 x 2 π ~ side-to-side overlap ~ less overlap than σ
π bond still strong enough to prevent = from rotating
box p31 allotropes of carbon
diamond, graphite, CNT, fullerene, graphene
sp3 vs sp2
174 = 90 + 84?
Ch 1 #35
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Triple bond and sp hybridization Ethyne [acetylene, CH≡CH] is linear.
hybridization
bonding triple bond
1.20 Å, 231 kcal/mol
Ch 1 #36
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Carbon with 3 bonds methyl cation [+CH3] 3 sp2-s σ bonds + 1 empty p orbital ~ VESPR-1
methyl radical [•CH3] 3 sp2-s σ bonds + 1 p orbital w/ 1 e ~ VESPR-1
Ch 1 #37
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methyl anion [−:CH3] 3 sp3-s σ bonds + 1 lone pair ~ VESPR-1
Ch 1 #38
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H2O bond angle close to tetrahedral angle, not 180º
hybridization
104.5º < 109.5º VSEPR-2: non-bonding EP repels more.
more diffuse [larger] e distribution than bonding EP
Ch 1 #39
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NH3 and NH4+
NH3
similar to H2O
104.5 < 107.3 < 109.5 1 lone pair EP ~ VSEPR-2
NH4+
4 identical bonds ~ 4 sp3
Ch 1 #40
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Hydrogen halides [HX] X ~ halogen [F, Cl, Br, I]
sp3-s bond
bond length and strength the shorter, the stronger
H-Fmore overlap
H-Clless overlap
Ch 1 #41
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Dipole moment of molecule is vector sum of bond (and lone-pair) dipoles
nonpolar
polar
‘Lone-pair dipole’ contributes.
NF3 µ = 0.24 D
Ch 1 #42
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halomethanes
bond angles ~ explainable
dipole moments ~ rather complex
Cl
HH
H
Cl
HH
Cl
Cl
HCl
Cl108
µ = 1.54 D µ = 1.02 D
111
112112
110
Ch 1 #43
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Summary: structure and bonding the shorter, the stronger the greater the e density in overlap
the more s character
(112+62)
(50% s)
(33% s)
(25% s)
Ch 1 #44
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ACIDS and BASES Brφnsted-Lowry definition of acid and base acid ~ proton (H+) donor ~ HA HX, H2O, ROH, RNH2, RCH3
base ~ proton acceptor ~ B: RNH2, ROH, H2O (amphoteric), X-
acid-base rxn = proton transfer rxn ~ an equilibrium rxn
Equili moves to weaker acid (and base).
acid base base acid
Ch 1 #45
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Acid strength ~ pKa
for acid HA in water
in dilute solution, [H2O] is constant at 55.5 M Ka ~ acid dissociation constant, acidity constant,
degree of ionization of acid in water
pKa ~ acidity strong acid ~ Ka > 1, pKa < 0
pH (of solution) vs pKa (of acid)
Ka = Keq [H2O] = [H3O+][A-]/[HA] or [H+][A-]/[HA]
pKa = – log Ka
strong and weak acid p43 ~ arbitrary
pKa of water?Prob 102 p67
Ch 1 #46
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conjugate base, acidity, and equilibrium
Strong reacts to form weak.
The stronger the acid, the weaker the conjugate base. The more stable the conjugate base, the more reactive the acid.
stability vs reactivity
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Organic acids and bases common organic acid ~ carboxylic acid [RCOOH]
why? inductive + resonance effect
common organic base ~ amine [RNH2]
why? inductive effect
compared with ROH
NH4+
pKa = 9.25
CH3CH2NH2pKa > 40
pKb = 4.75 pKb = 3.3
Ch 1 #48
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Strong and weak acids
HXinorgacids–10
–1.74
–615.74
RNH2amines35-40
RHhydrocarbons25-50
–2
5
strong acid(≈100%)
weak acid(partially ionized in water)
very weak acid (≈0%)
ROϴ, HOϴ
alkoxide ionhydroxide ion
RCOOϴ
carboxy anionXϴ
halide ion
Rϴ
RNHϴ
R ~ alkylCH3, CH3CH2, --
weak base medium base strong base
OH
10
Ch 1 #49
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*Curved arrow ~ electron movement Curved arrows show e movement
reaction mechanism
thermodynamics kinetics mechanism
Ch 1 #50
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Acidity: effect of atom bonded to H The weaker [more stable] the conjugate base,
the stronger the acid.
effect of EN
CH3OH vs CH3NH2?
More EN atom accommodates (-) charge better.
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effect of size
CH3OH vs CH3SH?
H loosely bound to larger atom. Larger atom accommodates (-) charge better. Size effect overweighs EN effect.
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effect of hybridization
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Acidity: inductive effect (of substituent)
EN X pulls e through σ bond better than H does
inductive e-withdrawing makes conj base stable acid strong
weaken O-H bond better leaving H acid strong
H < Br < Cl < F
e-withdrawing groups ~ most ~ -CN, -X, -OR, -C=O, etc
substitution reaction ~ 置換反應 substituent ~ 치환기
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R [alkyl] pushes e better than H does
inductive e-donating makes conj base strong acid weak
e-donating groups ~ -R, -O-, -COO-, etc
pKa ~ 13.1 pKa ~ 4.9 inductive effect (only)?
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Acidity: resonance effect (of subs) carboxylic acid vs alcohol
RCOOH is much stronger acid than ROH inductive effect of C=O
resonance effect ~ stabilize conj base by e delocalization
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pH and pKa
Henderson-Hasselbalch eqn
from definition of pH and pKa
tells [acidic form, HA]/[basic form, A-]in solution of certain pH acidic form when pH < pKa
basic form when pH > pKa
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useful for separation
at pH = 2, both in acidic form RCOOH to ether, RNH3
+ to water
charged (ionic) to water (polar);neutral (organic) to ether (organic).
|pH – pKa| > 2 for better separation (< 1/100)
Q. What pH for amine in ether and acid in water?
Do Prob 103 and 104 p67
pKa = 5
pKa = 10
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Buffer solution buffer solution with weak acid and its conj base
when ϴOH or H+ added no change in pH
preparation using H-H eqn
for pH, pKa, and buffer, Study guide pp36-55
RCOOH RCOOϴ + H+
RCOONa RCOOϴ + Na+
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Lewis acids and bases Lewis acid ~ accepts (a share in) an electron pair
Lewis base ~ donates (a share in) an electron pair
Lewis bases are BL bases.
Lewis acids are not limited to BL acids. Protonic acids are Lewis acids. ~ H+ accept e pair.
AlBr3, BF3, FeCl3, BH3, etc ~ usually-called Lewis acid do not give out H+; accepts e pair with empty orbital
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Exercise Do (all the) problems!
Prob 95. Which N more basic?
N
pyrrolidinebasic
pyrrolemuch less basic
N NN
NH H H
imidazolebasic
pyridinebasic
sp2sp3
N
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