Controlling the formation and directional growth of hydrogels is a challenge. In this paper, we propose a new methodology to program the gel formation both over space and time, using the diffusion and subsequent hydrolysis of 1,1’-carbonyldiimidazole (CDI) from an immiscible organic solution to the aqueous gel media
The present work shows how transient supramolecular hydrogels can be formed by catalytically control...
Simultaneous control of the kinetics and thermodynamics of two different types of covalent chemistry...
International audienceControlling supramolecular growth at solid surfaces is of great importance to ...
ABSTRACT: Simultaneous control of the kinetics and thermodynamics of two different types of covalent...
Chemical systems that remain kinetically dormant until activated have numerous applications in mater...
Simultaneous control of the kinetics and thermodynamics of two different types of covalent chemistr...
We demonstrate a generic new approach to produce homogeneous and reproducible hydrogels from low mol...
A novel approach to hyaluronic acid (HA) hydrogel with a chemical gradient of the matrix-linked bisp...
Multilayer (ML) hydrogels are useful to achieve stepwise and heterogeneous control over the organiza...
Kinetic control over supramolecular gelation by increasing the pH can be achieved using an enzymatic...
Self-assembly provides access to a variety of molecular materials, yet spatial control over structur...
Enzyme reaction networks can control the spatial and temporal formation of hydrogels. Here, inspired...
Immobilization of biocatalysts in hydrogel beads which are suspended in organic solvents is a promis...
Simultaneous control of the kinetics and thermodynamics of two different types of covalent chemist...
It remains challenging to program soft materials to show dynamic, tunable time-dependent properties....
The present work shows how transient supramolecular hydrogels can be formed by catalytically control...
Simultaneous control of the kinetics and thermodynamics of two different types of covalent chemistry...
International audienceControlling supramolecular growth at solid surfaces is of great importance to ...
ABSTRACT: Simultaneous control of the kinetics and thermodynamics of two different types of covalent...
Chemical systems that remain kinetically dormant until activated have numerous applications in mater...
Simultaneous control of the kinetics and thermodynamics of two different types of covalent chemistr...
We demonstrate a generic new approach to produce homogeneous and reproducible hydrogels from low mol...
A novel approach to hyaluronic acid (HA) hydrogel with a chemical gradient of the matrix-linked bisp...
Multilayer (ML) hydrogels are useful to achieve stepwise and heterogeneous control over the organiza...
Kinetic control over supramolecular gelation by increasing the pH can be achieved using an enzymatic...
Self-assembly provides access to a variety of molecular materials, yet spatial control over structur...
Enzyme reaction networks can control the spatial and temporal formation of hydrogels. Here, inspired...
Immobilization of biocatalysts in hydrogel beads which are suspended in organic solvents is a promis...
Simultaneous control of the kinetics and thermodynamics of two different types of covalent chemist...
It remains challenging to program soft materials to show dynamic, tunable time-dependent properties....
The present work shows how transient supramolecular hydrogels can be formed by catalytically control...
Simultaneous control of the kinetics and thermodynamics of two different types of covalent chemistry...
International audienceControlling supramolecular growth at solid surfaces is of great importance to ...
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