Hydrogen bonding is one of the most useful of the non-covalent interactions. Highly directional and easily tuneable, the strength of hydrogen bonded arrays enable controlled assembly of macromolecular structures. Because association can be designed to be selective, self-assembly involving low-molecular-weight amides and ureas has been expanded to higher order polymeric structures, so called ‘supramolecular polymers’. Chapter 1 introduces and develops upon the current themes of research in small-molecule hydrogen bonding, and the subsequent application towards the assembly of supramolecular polymers, in particular polyurethanes. The Wilson group is focused on the development of orthogonal recognition pathways, and their future application ...
The self-assembly of small and relatively simple molecules has proven to be a powerful tool for the ...
Low molecular weight additives which can cooperatively self-assemble with supramolecular polyurethan...
Hydrogen bonding is one of the most useful interactions for the self-assembly of molecular subunits ...
Hydrogen bonding is one of the most useful of the non-covalent interactions. Highly directional and ...
Hydrogen bonding is one of the most useful of the non-covalent interactions. Highly directional and ...
Hydrogen bonding is one of the most useful of the non-covalent interactions. Highly directional and ...
Hydrogen bonding is one of the most useful of the non-covalent interactions. Highly directional and ...
Sophisticated polymeric materials with \"responsive\" properties are beginning to reach the market. ...
Sophisticated polymeric materials with \"responsive\" properties are beginning to reach the market. ...
Sophisticated polymeric materials with \"responsive\" properties are beginning to reach the market. ...
Sophisticated polymeric materials with \"responsive\" properties are beginning to reach the market. ...
A series of six low molecular weight elastomers with hydrogen bonding end-groups have been designed,...
Multiple hydrogen bonds are used to self-assemble monomeric units into a polymer chain. The strength...
A series of six low molecular weight elastomers with hydrogen bonding end-groups have been designed,...
Multiple hydrogen bonds are used to self-assemble monomeric units into a polymer chain. The strength...
The self-assembly of small and relatively simple molecules has proven to be a powerful tool for the ...
Low molecular weight additives which can cooperatively self-assemble with supramolecular polyurethan...
Hydrogen bonding is one of the most useful interactions for the self-assembly of molecular subunits ...
Hydrogen bonding is one of the most useful of the non-covalent interactions. Highly directional and ...
Hydrogen bonding is one of the most useful of the non-covalent interactions. Highly directional and ...
Hydrogen bonding is one of the most useful of the non-covalent interactions. Highly directional and ...
Hydrogen bonding is one of the most useful of the non-covalent interactions. Highly directional and ...
Sophisticated polymeric materials with \"responsive\" properties are beginning to reach the market. ...
Sophisticated polymeric materials with \"responsive\" properties are beginning to reach the market. ...
Sophisticated polymeric materials with \"responsive\" properties are beginning to reach the market. ...
Sophisticated polymeric materials with \"responsive\" properties are beginning to reach the market. ...
A series of six low molecular weight elastomers with hydrogen bonding end-groups have been designed,...
Multiple hydrogen bonds are used to self-assemble monomeric units into a polymer chain. The strength...
A series of six low molecular weight elastomers with hydrogen bonding end-groups have been designed,...
Multiple hydrogen bonds are used to self-assemble monomeric units into a polymer chain. The strength...
The self-assembly of small and relatively simple molecules has proven to be a powerful tool for the ...
Low molecular weight additives which can cooperatively self-assemble with supramolecular polyurethan...
Hydrogen bonding is one of the most useful interactions for the self-assembly of molecular subunits ...