His work on Library science as part of general Citation research is frequently linked to Nanotechnology and Information retrieval, bridging the gap between disciplines. His Library science study frequently involves adjacent topics like Citation. Organic chemistry and Nitrogen are commonly linked in his work. He undertakes interdisciplinary study in the fields of Catalysis and Palladium through his research. He integrates Stereochemistry and Total synthesis in his research. He applies his multidisciplinary studies on Total synthesis and Catalysis in his research. Henk Hiemstra integrates Combinatorial chemistry with Organic chemistry in his research. He incorporates Ion and Stereochemistry in his studies. In his study, Henk Hiemstra carries out multidisciplinary Stereoselectivity and Regioselectivity research.
Henk Hiemstra is exploring Catalysis as part of his Enantioselective synthesis, Palladium, Stereoselectivity and Enol and Catalysis studies. He links relevant scientific disciplines such as Total synthesis and Intramolecular force in the realm of Stereochemistry. He performs multidisciplinary study on Organic chemistry and Biochemistry in his works. He performs integrative study on Biochemistry and Organic chemistry in his works. Henk Hiemstra merges Ion with Stereochemistry in his study. He integrates Polymer and Catalysis in his research.
Henk Hiemstra connects relevant research areas such as Moiety and Sigmatropic reaction in the domain of Stereochemistry. His Moiety study frequently involves adjacent topics like Stereochemistry. Many of his studies involve connections with topics such as Cinchona Alkaloids and Catalysis. His Cinchona Alkaloids study frequently draws connections between adjacent fields such as Biochemistry. His Biochemistry study frequently links to adjacent areas such as Cinchona. He conducts interdisciplinary study in the fields of Organic chemistry and Combinatorial chemistry through his works. He connects Combinatorial chemistry with Organic chemistry in his study. His research is interdisciplinary, bridging the disciplines of Salt metathesis reaction and Polymer. Much of his study explores Salt metathesis reaction relationship to Metathesis.
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CuI‐Catalyzed Alkyne–Azide “Click” Cycloadditions from a Mechanistic and Synthetic Perspective
Victoria D. Bock;Henk Hiemstra;Jan H. van Maarseveen.
European Journal of Organic Chemistry (2006)
Intramolecular reactions of N-acyliminium intermediates
W.N. Speckamp;H. Hiemstra.
Cinchona Alkaloids in Asymmetric Organocatalysis
Tommaso Marcelli;Henk Hiemstra.
Cupreines and Cupreidines: An Emerging Class of Bifunctional Cinchona Organocatalysts
Tommaso Marcelli;Jan H van Maarseveen;Henk Hiemstra.
Angewandte Chemie (2006)
Asymmetric Organocatalytic Henry Reaction
Tommaso Marcelli;Richard N. S. van der Haas;Jan H. van Maarseveen;Henk Hiemstra.
Angewandte Chemie (2006)
1,2,3-Triazoles as peptide bond isosteres: synthesis and biological evaluation of cyclotetrapeptide mimics
Victoria D. Bock;Dave Speijer;Henk Hiemstra;Jan H. van Maarseveen.
Organic and Biomolecular Chemistry (2007)
Catalytic Asymmetric Pictet–Spengler Reactions via Sulfenyliminium Ions†
Martin J. Wanner;Richard N. S. van der Haas;Kimberly R. de Cuba;Jan H. van Maarseveen.
Angewandte Chemie (2007)
Catalyzed Propargylic Substitution
Remko J. Detz;Henk Hiemstra;Jan H. van Maarseveen.
European Journal of Organic Chemistry (2009)
Enantioselective Copper-Catalyzed Propargylic Amination
Remko J. Detz;Mariëlle M. E. Delville;Henk Hiemstra;Jan H. van Maarseveen.
Angewandte Chemie (2008)
“Clickphine”: A Novel and Highly Versatile P,N Ligand Class via Click Chemistry
Remko J Detz;Silvia Arévalo Heras;R de Gelder;Piet W N M van Leeuwen.
Organic Letters (2006)
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