Rajappa Vaidyanathan | Researchain

Archive Network Publication Hotspot Collaboration

Network

Latest external collaboration on country level. Dive into details by clicking on the dots.

Explore More

Hotspot

Dive into the research topics where Rajappa Vaidyanathan is active.

Explore More

Publication

Featured researches published by Rajappa Vaidyanathan.

Organic Letters | 2009

Mild and efficient DBU-catalyzed amidation of cyanoacetates.

Kristin E. Price; Claude Larrivée-Aboussafy; Brett M. Lillie; Robert William Mclaughlin; Jason Mustakis; Kevin Hettenbach; Joel M. Hawkins; Rajappa Vaidyanathan

A mild, high-yielding, and practical protocol for the direct amidation of alkyl cyanoacetates using DBU is presented. This method eliminates the need for activation of cyanoacetic acid and/or high temperatures. It has been applied to the large-scale synthesis of CP-690,550-10 (1), a compound under development for the treatment of autoimmune diseases.

Organic Letters | 2010

DBU Catalysis of N,N′-Carbonyldiimidazole-Mediated Amidations§

Claude Larrivée-Aboussafy; Brian P. Jones; Kristin E. Price; Mark Hardink; Robert William Mclaughlin; Brett M. Lillie; Joel M. Hawkins; Rajappa Vaidyanathan

1,8-Diazabicyclo[5.4.0]undec-7-ene (DBU) has been found to catalyze the amidation of acyl imidazoles. The rate acceleration is especially evident with traditionally unreactive, electron-deficient anilines. DBU is readily available and offers safety and cost advantages over more commonly employed catalysts such as 1-hydroxybenzotriazole.

Journal of Organic Chemistry | 2017

Zinc Acetate-Promoted Buchwald-Hartwig Couplings of Heteroaromatic Amines

Rajaram Ayothiraman; Sundaramurthy Rangaswamy; Prantik Maity; Eric M. Simmons; Gregory L. Beutner; Jacob Janey; Daniel S. Treitler; Martin D. Eastgate; Rajappa Vaidyanathan

Zinc salts have been shown to promote the Buchwald-Hartwig coupling of azaindoles and azaindazoles with heteroaryl chlorides to provide the corresponding 1-aryl-1H-azaindoles and 1-aryl-1H-azaindazoles. The substrate scope and mechanistic aspects of this reaction were explored.

Journal of Organic Chemistry | 1999

TEMPO-Catalyzed Oxidations of Alcohols Using m-CPBA: The Role of Halide Ions.

Scott D. Rychnovsky; Rajappa Vaidyanathan

Journal of Organic Chemistry | 2003

Early amidation approach to 3-[(4-amido)pyrrol-2-yl]-2-indolinones.

Jerad M. Manley; Monica Kalman; Brian G. Conway; Cynthia C. Ball; Jeffrey L. Havens; Rajappa Vaidyanathan

Journal of Organic Chemistry | 1999

AM1-SM2 CALCULATIONS MODEL THE REDOX POTENTIAL OF NITROXYL RADICALS SUCH AS TEMPO

Scott D. Rychnovsky; Rajappa Vaidyanathan; Thomas J. Beauchamp; Rong Lin; Patrick J. Farmer

Journal of Organic Chemistry | 2004

Amidations Using N,N ‘-Carbonyldiimidazole: Remarkable Rate Enhancement by Carbon Dioxide

Rajappa Vaidyanathan; Vikram Gurudath Kalthod; Duc P. Ngo; Jerad M. Manley; Sean P. Lapekas

Journal of Organic Chemistry | 1998

Synthesis of Chiral Nitroxides and an Unusual Racemization Reaction

Scott D. Rychnovsky; Thomas J. Beauchamp; Rajappa Vaidyanathan; Tricia A. Kwan

Organic Process Research & Development | 2014

Development of an Efficient Pd-Catalyzed Coupling Process for Axitinib

Brian P. Chekal; Steven M. Guinness; Brett M. Lillie; Robert William Mclaughlin; Charles W. Palmer; Ronald J. Post; Janice E. Sieser; Robert A. Singer; Gregory W. Sluggett; Rajappa Vaidyanathan; Gregory J. Withbroe

Organic Process Research & Development | 2008