This paper reports the design and facile synthesis of a novel series of "nano-diamond-ring-like" giant surfactants composed of a functionalized hydrophilic polyhedral oligomeric silsesquioxane (such as dihydroxyl-functionalized DPOSS) or fullerene (such as carboxylic acid-functionalized AC(60)) head as the "diamond" and a hydrophobic, cyclic polystyrene (CPS) tail as the "ring". The synthetic route combines several steps of "click-type" reactions, demonstrating highly efficient and modular features. Starting from a specifically designed initiator, trifunctional linear polystyrene (LPS) precursors bearing vinyl, bromo, and alkyne groups were prepared by atom transfer radical polymerization (ATRP). Upon...
This research focuses on exploring new synthetic approaches to prepare polymer-based advanced nanoma...
We report a remarkable sensitivity of self-assembled structures of giant surfactants on their chemic...
The increasing need for materials with tightly controlled structures will continue to fuel the induc...
Giant surfactants are polymer-tethered molecular nanoparticles (MNPs) and can be considered as a sub...
Rapid and precise synthesis of macromolecules has been a grand challenge in polymer chemistry. In th...
Giant surfactants refer to a new kind of amphiphile by incorporating functional molecular nanopartic...
Giant surfactants are polymer-tethered molecular nanoparticles (MNPs) and can be considered as a sub...
Precise control of primary chemical structures, especially those of complex structures, is a prerequ...
We report a remarkable sensitivity of self-assembled structures of giant surfactants on their chemic...
The engineering of structures across different length scales is central to the design of novel mater...
One of the challenges in the precise synthesis of giant surfactants lies in the homogenous functiona...
© 2013 Dr. Jing Ming RenThe properties and functions of polymeric materials are not only dictated by...
A series of unique heterofunctionalized asymmetric giant "bolaform-like" surfactants compo...
Head diversification of shape amphiphiles not only broadens the scope of supramolecular engineering ...
The delicate influence of minute structural difference, such as regiochemistry, on self-assembly and...
This research focuses on exploring new synthetic approaches to prepare polymer-based advanced nanoma...
We report a remarkable sensitivity of self-assembled structures of giant surfactants on their chemic...
The increasing need for materials with tightly controlled structures will continue to fuel the induc...
Giant surfactants are polymer-tethered molecular nanoparticles (MNPs) and can be considered as a sub...
Rapid and precise synthesis of macromolecules has been a grand challenge in polymer chemistry. In th...
Giant surfactants refer to a new kind of amphiphile by incorporating functional molecular nanopartic...
Giant surfactants are polymer-tethered molecular nanoparticles (MNPs) and can be considered as a sub...
Precise control of primary chemical structures, especially those of complex structures, is a prerequ...
We report a remarkable sensitivity of self-assembled structures of giant surfactants on their chemic...
The engineering of structures across different length scales is central to the design of novel mater...
One of the challenges in the precise synthesis of giant surfactants lies in the homogenous functiona...
© 2013 Dr. Jing Ming RenThe properties and functions of polymeric materials are not only dictated by...
A series of unique heterofunctionalized asymmetric giant "bolaform-like" surfactants compo...
Head diversification of shape amphiphiles not only broadens the scope of supramolecular engineering ...
The delicate influence of minute structural difference, such as regiochemistry, on self-assembly and...
This research focuses on exploring new synthetic approaches to prepare polymer-based advanced nanoma...
We report a remarkable sensitivity of self-assembled structures of giant surfactants on their chemic...
The increasing need for materials with tightly controlled structures will continue to fuel the induc...