2023 - Research.com Chemistry in United States Leader Award
2022 - Research.com Best Scientist Award
2021 - Welch Award in Chemistry, Robert A. Welch Foundation
2014 - Fellow, National Academy of Inventors
2014 - Wolf Prize in Chemistry, Wolf Foundation for his numerous and original contributions to the development of innovative methods for the programmable and applied synthesis of complex oligosaccharides and glycol-proteins.
2012 - Arthur C. Cope Award, American Chemical Society (ACS)
2008 - F.A. Cotton Medal for Excellence in Chemical Research, American Chemical Society (ACS)
2007 - Fellow, The World Academy of Sciences
2004 - Fellow of the American Association for the Advancement of Science (AAAS)
2002 - Member of the National Academy of Sciences
1996 - Fellow of the American Academy of Arts and Sciences
Chi-Huey Wong focuses on Biochemistry, Stereochemistry, Enzyme, Organic chemistry and Glycan. Glycoprotein, Glycosylation, Oligosaccharide, Glycoconjugate and Glycolipid are the primary areas of interest in his Biochemistry study. His Stereochemistry research incorporates elements of Aldol reaction, Chemical synthesis, Aldolase A and Substrate.
His Glycan research incorporates themes from Epitope, Antibody and Virology. In his research on the topic of Antibody, Microbiology and Molecular biology is strongly related with Antigen. Chi-Huey Wong works mostly in the field of Catalysis, limiting it down to topics relating to Combinatorial chemistry and, in certain cases, Anomer.
His scientific interests lie mostly in Biochemistry, Stereochemistry, Enzyme, Organic chemistry and Glycosylation. His work is connected to Glycan, Glycoprotein, Glycosyltransferase, Oligosaccharide and Glycoconjugate, as a part of Biochemistry. While the research belongs to areas of Glycan, Chi-Huey Wong spends his time largely on the problem of Antibody, intersecting his research to questions surrounding Virology.
His biological study deals with issues like Glycopeptide, which deal with fields such as Peptide. His is involved in several facets of Organic chemistry study, as is seen by his studies on Catalysis and Organic synthesis. His Glycosylation study frequently draws connections to other fields, such as Glycosyl.
His primary scientific interests are in Biochemistry, Glycan, Glycosylation, Antibody and Stereochemistry. His work in Glycoprotein, Glycolipid, Glycoconjugate, Enzyme and Fucose are all subfields of Biochemistry research. His work in Glycan covers topics such as Antigen which are related to areas like Adjuvant.
His study in Glycosylation is interdisciplinary in nature, drawing from both Hemagglutinin, Disease progression, Sialic acid and Glycosyltransferase. The concepts of his Antibody study are interwoven with issues in Molecular biology and Virology. His Stereochemistry research is multidisciplinary, incorporating perspectives in Sulfation, Chemical synthesis and Lipid II.
His primary areas of investigation include Glycan, Antibody, Biochemistry, Glycosylation and Virology. His research on Glycan concerns the broader Glycoprotein. Chi-Huey Wong has researched Antibody in several fields, including Molecular biology and Antigen.
His study in Biochemistry concentrates on Fucose, Glycolipid, Fucosylation, Enzyme and Glycosyltransferase. His Glycosylation research includes themes of Sequon, Allose, Isomerase, Stereochemistry and Effector. In general Stereochemistry, his work in Pyranose is often linked to Structural diversity linking many areas of study.
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Broad neutralization coverage of HIV by multiple highly potent antibodies
Laura M. Walker;Michael Huber;Michael Huber;Katie J. Doores;Katie J. Doores;Emilia Falkowska;Emilia Falkowska.
Enzymes in synthetic organic chemistry
Chi-Huey Wong;G. M. Whitesides.
Printed covalent glycan array for ligand profiling of diverse glycan binding proteins
Ola Blixt;Steve Head;Tony Mondala;Christopher Scanlan.
Proceedings of the National Academy of Sciences of the United States of America (2004)
Enzymes for chemical synthesis
Kathryn M. Koeller;Chi-Huey Wong.
Recognition of bacterial glycosphingolipids by natural killer T cells
Yuki Kinjo;Douglass Wu;Gisen Kim;Guo-Wen Xing.
The Catalytic Asymmetric Aldol Reaction.
Timothy D. Machajewski;Chi-Huey Wong.
Angewandte Chemie (2000)
Programmable one-pot oligosaccharide synthesis
Chi-Huey Wong;Zhiyuan Zhang;Ian Ollmann;Timor Baasov.
Journal of the American Chemical Society (1999)
A Potent and Broad Neutralizing Antibody Recognizes and Penetrates the HIV Glycan Shield
Robert Pejchal;Katie J. Doores;Katie J. Doores;Laura M. Walker;Reza Khayat.
Lipase-catalyzed irreversible transesterifications using enol esters as acylating reagents: preparative enantio- and regioselective syntheses of alcohols, glycerol derivatives, sugars, and organometallics
Yi Fong. Wang;James J. Lalonde;Milagros. Momongan;David E. Bergbreiter.
Journal of the American Chemical Society (1988)
Carbohydrate Mimetics: A New Strategy for Tackling the Problem of Carbohydrate‐Mediated Biological Recognition
Pamela Sears;Chi-Huey Wong.
Angewandte Chemie (1999)
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