Add to ORKGThe chemistry of fluorolkyl hypervalent iodine reagents has witnessed a great boast in recent years. These compounds are highly attractive as drug candidates, advanced materials and agrochemicals as described in detail in the Introduction. Despite this fact, applications of these reagents in biological studies are rather rare and under developed. The goal of this thesis is therefore the development of mild and metal-free methods in order to fill this gap. Two ways of application of fluoroalkyl hypervalent iodine reagents in labeling of biologically relevant compounds was explored. First, the applicability of previously reported parent Togni CF3 and their analogous tetrafluoroethyl reagents in radical fluoroalkylation of electron-rich substr...
Fluorinated alkyl compounds may be used as reaction intermediates or reaction products in polymerizi...
When fluorine is incorporated into organic molecules, the C-F bond participates in a variety of ster...
Benzylic C–H bonds are ubiquitous in pharmaceutical and other biologically active compounds. The lo...
The chemical modification of proteins has provided a toolbox enabling many experiments in chemical b...
Hypervalent iodine compounds are powerful reagents for the development of novel transformations. As ...
This thesis concerns method development of new synthetic routes by applying electrophilic hypervalen...
Hypervalent iodine complexes can be used to deliver a variety of functional groups to arenes. Delive...
Hypervalent iodine(III) compounds are attractive reagents in organic synthesis. The main advantages ...
Selective functionalization of peptides and proteins has always been a valuable tool for the study a...
Organofluorine substrates are molecules of increasing demand in both academic and industrial setting...
Electrophilic trifluoromethylation is at the forefront of methodologies available for the installati...
α-Functionalized carbonyl compounds are versatile intermediates in organic synthesis. A broad range ...
Fluorine does not belong to the pool of chemical elements that nature uses to build organic matter. ...
The development of optically active fluorinated synthetic building blocks of general utility is a cu...
Mass spectrometry techniques are very important and useful tool in studying of protein structure. On...
Fluorinated alkyl compounds may be used as reaction intermediates or reaction products in polymerizi...
When fluorine is incorporated into organic molecules, the C-F bond participates in a variety of ster...
Benzylic C–H bonds are ubiquitous in pharmaceutical and other biologically active compounds. The lo...
The chemical modification of proteins has provided a toolbox enabling many experiments in chemical b...
Hypervalent iodine compounds are powerful reagents for the development of novel transformations. As ...
This thesis concerns method development of new synthetic routes by applying electrophilic hypervalen...
Hypervalent iodine complexes can be used to deliver a variety of functional groups to arenes. Delive...
Hypervalent iodine(III) compounds are attractive reagents in organic synthesis. The main advantages ...
Selective functionalization of peptides and proteins has always been a valuable tool for the study a...
Organofluorine substrates are molecules of increasing demand in both academic and industrial setting...
Electrophilic trifluoromethylation is at the forefront of methodologies available for the installati...
α-Functionalized carbonyl compounds are versatile intermediates in organic synthesis. A broad range ...
Fluorine does not belong to the pool of chemical elements that nature uses to build organic matter. ...
The development of optically active fluorinated synthetic building blocks of general utility is a cu...
Mass spectrometry techniques are very important and useful tool in studying of protein structure. On...
Fluorinated alkyl compounds may be used as reaction intermediates or reaction products in polymerizi...
When fluorine is incorporated into organic molecules, the C-F bond participates in a variety of ster...
Benzylic C–H bonds are ubiquitous in pharmaceutical and other biologically active compounds. The lo...