reagents in organic synthesis

REAGENTS IN ORGANIC SYNTHESISREAGENTS IN ORGANIC SYNTHESISMr. Anand S Burange,Institute Of Chemical Technology, Matunga , Mumbai-400019E-mail: [email protected]

HO

O

HO

H

N

Lecture at KTHM College, Nashik on 15th September 2012

WHAT IS A CHEMICAL REACTION?WHAT IS A CHEMICAL REACTION?

Chemical reaction is an effective interaction between two or more molecules/atoms /ions leading to the formation of new compound(s).

A B

2

3

Entry Reagent

1 NaNH2/NH3

2 1,3-propan-dithiol

3 Methylmethyl thiomethyl sulfoxide

4 OsO4, KMnO4

5 NaIO4

6 LTA

7 m-CPBA, Hydrogen peroxide

8 Ozone

9 LAH/NaBH4

10 DIBAL-H and solvent effect

11 Diethyl oxalate

12 Simmon’s Smith Vs Stabilized sulphur ylid

13 Abnormal Witting

14 NaNO2 /HCl (Semi-pinacolone rearrangement)

Role of anti-pariplanar relationship

15 Organoborane and hyperconjugation

16 Pph3 or P(OEt)3 and organosilane reagent

17 Diazomethane

18 PhSeBr

19 MeLi

Reagents to be covered……


4

NaNH2/NH3

Sodamide can be prepared by adding sodium metal to ammonia.

Sodium metal can easily react with any active proton donor with the release of hydrogen gas.

NaNH2/NH3 obtained can be used for benzyne mechanism while NaNH2/NH3 in ethanol is used

for Birch reduction.

Cl NH2NaNH2/NH3

Via Benzyne intermediate

Nu Nu


5

Cl

ClNaNH2/NH3

Cl

Cl

NaNH2/NH3

Cl

Cl

NaNH2/NH3

Cl

NH2

Cl

NH2

Cl

NH2


6

OHNH2 i. Cl-PO(OEt)2/NaH

ii. NaNH2/NH3 (Via Benzyne)

Br CH(CO2Et)2

Cl

Me Me Me

OH

OH

OMe

Cl NaNH2/NH3

OMe

NH2

i. NaNH2/NH3

ii. -CH(CO2Et)2

OH-/340o C

NaNH2/NH3


7

1,3-propan-dithiolSHSH

1,3-propan-dithiol is used to change the polarity of carbonyl carbon of aldehydes in order to make it

nucleophilic by using LDA as a base. This change in polarity is called as umpolung.

Using this concept, we can easily prepare any cyclic ketones like cyclopropanone, cyclobutanone, etc.

O

HHSH SH / H+ S S

H HProtected form of formaldehyde

LDAS S

H

X

X

n S S

H

X

n

Again LDA is used to get S S

n n

Owhich on deprotection using acid/ Hg2+ yields


8

H H

OO

O

O

O

Predict alkyl halide required with 2 eq. of LDA….

BrCH2CH2Br

BrCH2CH2CH2Br

BrCH2CH2CH2CH2Br

BrCH2CH2CH2CH2CH2Br


9

Methylmethyl thiomethyl sulfoxideSMe

SMe

O

H

H

-CHO group can be introduced at a beta position of enone system can be asses by using methylmethyl thiomethyl sulphoxide

O

CHO

SMe

SMe

O

H

H

i. LDA

ii.O

iii. H3O+/Hg2+


10

Baeyer- Villiger Oxidation and migratory aptitude

R R'

O

+ RCO3HR OR'

O

Carbonyl per acid Ester

Per acid

R

O

OO

H

Electrophilic oxygen

Why electrophilic ?

R

O

OO

H

Nu-

R

O

O + Nu-OH

Stable carboxylate anion Lecture at KTHM College, Nashik on 15th September 2012

11

Various per acids used for Baeyer Villiger oxidation and epoxidation reactions

Cl

CO3H

m-Chloroperbenzoic acidm-CPBA

O

OOH

O

O 2

Mg2+

Magnesium monoperoxyphthalateMMPP

Migratory aptitude in Baeyer-Villiger Oxidation Reaction

H> phenyl > tert-alkyl> sec-alkyl > primary alkyl > methyl


12

Me

O

Me

O

O

NO2

m-CPBA

m-CPBA

m-CPBA

Me O

O

Me O

O

O

O2N

O


13

Bartlett has proposed one step mechanism for epoxidation of alkene using per-acid

R

O O

O H O


14

OH

O

OH

OH

OH

OsO4 OR KMnO4 OR OsO4/ NMO OR K2OsO4 /NMO

m-CPBA

CH2I2/ Zn-Cu (Simmon’s Smith)

I2/ AgOAc (Prevost) OR m-CPBA followed by hydrolysis


15

Some selectivity aspects during epoxidation reactions…..

MeO

OH

OCOCH3

m-CPBA

m-CPBA

m-CPBA

m-CPBA

m-CPBAO

MeO

O

O

OH

O

OCOCH3

O

50:50 both stereo-isomers are formed

Regioselectivity:

Stereoselectivity


16

Cleavage of 1,2-diols

OH

OH

NaIO4

OR LTA

O

O

OH

OHNaIO4

No CleavageNaIO4 is selective for only cis-diol

OH

OH LTAO

OLTA breaks both cis and trans diols

I

O

O

O ONa

Sodium periodate

Pb

OAc

OAc

OAcAcO

Lead tetraacetate

Vs


17

O

O

COOH

COOH

OH

OH

Ozonolysis at different conditions…

O3 , CH2Cl2

Zn, Me2S

O3 , CH2Cl2

NaBH4 OR LAH

O3 , CH2Cl2

H2O2

Mechanism involves formation of primary ozonoid which on homolysis gives carbonyl oxide radical.

Carbonyl oxide radical on dimerization gives tetraoxane which on breaking yields corresponding carbonyl.


18

DIBAL-H and Solvent-Effect

AlH

It’s a neutral aluminium hydride containing only one

hydride species. It’s a convenient reagent for reducing

carboxylic acids to alcohols. It can reduce esters to

alcohols and aldehydes selectively. Amides and nitriles

also yields aldehydes


19

R

O

ORDIBAL-H (eq.)

-78o C, THF(polar solvent)R H

O

R

O

ORDIBAL-H (eq.)

-78o C, Hydrocarbon(nonpolar solvent)R H

O

In Polar solvent

R OR

O

AlHR OR

O

H

Al O

R OR

O

H

AlO

R H

O


20

In non-polar solvent

R OR

O

AlHR OR

O

H

Al

Stable at low temperature and recovered at -78oC

H2O

R OH

OR

H

Hemiacetal

R OH

OR

H

Hemiacetal

R H

OH3O

+


Lecture at KTHM College, Nashik on 15th September 2012 21

CO2Et

O

NaBH4EtOH

CO2Et

OH

CO2Et

O

LiAlH4

Et2O

OH

OH

CO2Et

O

1.EG/H+

2.LAH

3.H3O+

O

OH

NaBH4 Vs LAH

22

Simmons-Smith Cyclopropane SynthesisIt has been developed by H.E. Simmons and R.D. Smith of the DuPont Company. During this

synthesis diiodomethane and zinc-copper couple are stirred together with alkene. The

diiodomethane and zinc react together to produce carbene like species called as carbenoid

which brings stereospecific addition of CH2 directly to the double bond.

CH2I2 + Zn(Cu) ICH2ZnI

A carbenoid

Simplest carbene : Methylene

:CH2

Can be easily prepared by thermolysisor by irradiating diazomethane gas.

CH2

Carbene six electron containing species

H

H


23

Me

Me

Me Me

KOC(CH3)3

CHCl3

KOC(CH3)3

CHBr3

CH2I2/ Zn(Cu)

diethyl ether

Cl

Cl

Me Me

BrBr

Me Me


24

Epoxidation and cyclopropanation of alpha-beta unsaturated enone systems

O OO

O

H2O2/OH-Me2SOCH2

-

Stabilized sulphur ylid


25

Unstabilized sulphur ylids are useful to convert carbonyls to respective epoxides

R

O

R

MeS

Me CH2

R

O

R+ Me2S

Application of unstabilized sulphur ylid


26

Diazomethane for ring expansion

Diazomethane is a poisonous gas. It must be handled with great care.

CH2N2

H2C N N H2C N N

Needle like nucleophile

Structure:


27

O

O

O

H

Me

CH2N2

CH2N2

CH2N2

O

O

Me

O

Me

Epoxide is a product of side-reaction occurs during this reaction Lecture at KTHM College, Nashik on 15th September 2012

28

!!ANTI PERIPLANAR RELATIONSHIP!! / Elimination reaction

iPr

Cl

MeRO-

?

iPr

Cl

Me

H

iPr

Cl

Me

HRO-

iPr Me


29

NH2OH

OH

NH2

NH2OH

NaNO2/HCl

NaNO2/HCl

NaNO2/HCl

CHO

O

O

NaNO2 /HCl (Semi-pinacolone rearrangement)


30

O

O

O

O

CHO

O

CH2

Predict the suitable reagents for the following examples….

CH3-O-CH=Pph3

i.Base ii. PhSeBr iii. Oxidant (e.g. H2O2)

ph3P=CH2 OR i. Me3SiCH2MgCl ii. H+

iii. KH or HF

BF3/DMSO (solvent)

Peterson olefinating agent better than P-ylid

CHO

31

O

OEt

O

CO2H

O

COOH COCH3

MeLi(Excess)

Ph3P: /(EtO)3P:

i. Base/ii. H+/heat

COOEt

COOEt

Diethyl oxalate


32


Organoborane and hyper-conjugation

B

Et

Me i. CO(1atm)H2O solvent

H2O2/OH-

O

B

Et

Me

C O

CarbonylationB

Et

Me C

O

B

Et

O

Me

Et

Me

BO

H2O:

B

Me

Et

OH

OH OOH

B

Me

Et

OH

OH

OHO

B

OH

OEt

OHMe

O

From Boron, the alkyl group contributing less hyperconjugation effect migrates to carbonyl carbon

reagents in organic synthesis

Education

kthm college

polar solvent lecture

nabh4 vs lah lecture

baeyer villiger oxidation

baeyer villiger oxidation

nanh2nh3 sodamide

carbonyl oxide radical

ch2cl2 zn