Add to ORKGCompartmentalization of reactions is ubiquitous in biochemistry. Self-reproducing lipids are widely studied as chemical models of compartmentalized biological systems. Here, we explore the effect of catalyst location on copper-catalyzed azide-alkyne cycloadditions which drive the self-reproduction of micelles from phase-separated components. Tuning the hydrophilicity of the copper-ligand complex, so that hydro-phobic or -philic catalysts are used in combination with hydro-philic and -phobic coupling partners provides a wide range of reactivity patterns. Analysis of the kinetic data shows that reactions with a hydrophobic catalyst are faster than with a hydrophilic catalyst. Diffusion-ordered spectroscopy experiments suggest compartmentaliza...
This thesis describes a series of projects which have autocatalysis as the overarching theme. Chap...
This work describes the autocatalytic copper-catalyzed azide–alkyne cycloaddition (CuAAC) reaction b...
Micrometer-sized objects are widely known to exhibit chemically driven motility in systems away from...
Compartmentalization of reactions is ubiquitous in biochemistry. Self-reproducing lipids are widely ...
We report a physical autocatalytic system where micelles self-reproduce via a copper-catalyzed azide...
The work contained within this thesis describes the development and study of self-reproducing system...
Bioorthogonal conjugation reactions such as strain-promoted azide–alkyne cycloaddition (SPAAC) have ...
Self-replication and compartmentalization are two central properties thought to be essential for min...
Autocatalysis has been extensively studied because it is central to the propagation of living system...
Autocatalysis has been extensively studied because it is central to the propagation of living system...
The adaptivity of biological reaction networks largely arises through non-covalent regulation of cat...
<p>ConspectusOne often thinks of catalysts as chemical tools to accelerate a reaction or to have a r...
Click chemistry is a molecular synthesis strategy based on reliable, highly selective reactions with...
This work represents our initial effort in identifying azide/alkyne pairs for optimal reactivity in ...
The current understanding of ligand effects in transition metal catalysis is mostly based on the ana...
This thesis describes a series of projects which have autocatalysis as the overarching theme. Chap...
This work describes the autocatalytic copper-catalyzed azide–alkyne cycloaddition (CuAAC) reaction b...
Micrometer-sized objects are widely known to exhibit chemically driven motility in systems away from...
Compartmentalization of reactions is ubiquitous in biochemistry. Self-reproducing lipids are widely ...
We report a physical autocatalytic system where micelles self-reproduce via a copper-catalyzed azide...
The work contained within this thesis describes the development and study of self-reproducing system...
Bioorthogonal conjugation reactions such as strain-promoted azide–alkyne cycloaddition (SPAAC) have ...
Self-replication and compartmentalization are two central properties thought to be essential for min...
Autocatalysis has been extensively studied because it is central to the propagation of living system...
Autocatalysis has been extensively studied because it is central to the propagation of living system...
The adaptivity of biological reaction networks largely arises through non-covalent regulation of cat...
<p>ConspectusOne often thinks of catalysts as chemical tools to accelerate a reaction or to have a r...
Click chemistry is a molecular synthesis strategy based on reliable, highly selective reactions with...
This work represents our initial effort in identifying azide/alkyne pairs for optimal reactivity in ...
The current understanding of ligand effects in transition metal catalysis is mostly based on the ana...
This thesis describes a series of projects which have autocatalysis as the overarching theme. Chap...
This work describes the autocatalytic copper-catalyzed azide–alkyne cycloaddition (CuAAC) reaction b...
Micrometer-sized objects are widely known to exhibit chemically driven motility in systems away from...