Lawrence W. Nicholson
Dordt University(US)
Publications by Year
Research Areas
Organoboron and organosilicon chemistry, Asymmetric Synthesis and Catalysis, Enzyme Catalysis and Immobilization, Analytical Chemistry and Chromatography, Chemical Synthesis and Analysis
Most-Cited Works
- → An Enzyme Library Approach to Biocatalysis: Development of Nitrilases for Enantioselective Production of Carboxylic Acid Derivatives(2002)258 cited
- → Isolation of a Crystalline Trisaccharide from the Unfermentable Carbohydrate Produced Enzymically from Maltose1(1951)60 cited
- → A simple and convenient synthesis of β-amino alcohol chiral auxiliaries based on limonene oxide(2001)60 cited
- → Boranes in Synthesis. 6. A New Synthesis of .beta.-Amino Alcohols from Epoxides. Use of Lithium Amides and Aminoborane Catalysts To Synthesize .beta.-Amino Alcohols from Terminal and Internal Epoxides in High Yield(1994)55 cited
- → Enzymic synthesis of oligosaccharides—A transglycosidation(1953)37 cited
- → Boranes in Synthesis. 5. The Hydroboration of Enamines with Mono- and Dialkylboranes. Asymmetric Synthesis of .beta.-Amino Alcohols of Moderate Enantiomeric Purity from Aldehyde Enamines(1995)37 cited
- → Chemoenzymatic approaches to the dynamic kinetic asymmetric synthesis of aromatic amino acids(2004)33 cited
- → Enantiomeric resolution of underivatized small peptides by HPLC with a chiral crown ether stationary phase(1991)29 cited
- → Boranes in synthesis. 2. Asymmetric synthesis of β-amino alcohols. A facile conversion of 2-amino acetophenones to the corresponding β-amino alcohols in high enantiomeric purity(1994)22 cited
- → Boranes in Synthesis. 1. Asymmetric synthesis of β-amino alcohols. A facile conversion of enamines to the corresponding β-amino alcohols in high enantiomeric purity(1993)20 cited