Article
Publicly Available
Applications of thallium(III) nitrate (TTN) to organic synthesis
-
Alexander McKillop
Published/Copyright:
January 1, 2009
Published Online: 2009-01-01
Published in Print: 1975-01-01
© 2013 Walter de Gruyter GmbH, Berlin/Boston
Articles in the same Issue
- Opening remarks
- The cyclopropanation of silyl enol ethers. A powerful synthetic tool
- Chiral recognition in complexation of guests by designed host molecules
- The importance of conformation of the tetrahedral intermediate in the hydrolysis of esters and amides
- The effect of pressure on the electronic states of organic solids
- Asymmetric catalysis by chiral rhodium complexes in hydrogenation and hydrosilylation reactions
- Synthetic studies in the field of natural products
- Two-phase reactions in the chemistry of carbanions and halocarbenes. A useful tool in organic synthesis
- Applications of thallium(III) nitrate (TTN) to organic synthesis
- Singlet oxygen: a reagent in organic synthesis
- The use of polymeric reagents in organic synthesis
- Industrial synthesis of terpene compounds
- The use of kinetically generated unstable enolate ions in the regiospecific formation of carbonxarbon bonds. Specific applications to annelation processes
- Novel approaches to alkylations
Articles in the same Issue
- Opening remarks
- The cyclopropanation of silyl enol ethers. A powerful synthetic tool
- Chiral recognition in complexation of guests by designed host molecules
- The importance of conformation of the tetrahedral intermediate in the hydrolysis of esters and amides
- The effect of pressure on the electronic states of organic solids
- Asymmetric catalysis by chiral rhodium complexes in hydrogenation and hydrosilylation reactions
- Synthetic studies in the field of natural products
- Two-phase reactions in the chemistry of carbanions and halocarbenes. A useful tool in organic synthesis
- Applications of thallium(III) nitrate (TTN) to organic synthesis
- Singlet oxygen: a reagent in organic synthesis
- The use of polymeric reagents in organic synthesis
- Industrial synthesis of terpene compounds
- The use of kinetically generated unstable enolate ions in the regiospecific formation of carbonxarbon bonds. Specific applications to annelation processes
- Novel approaches to alkylations