Hydrophobic polymers are not niche materials—they form the “base color” of our everyday plastic world. A large number of common polymers are chemically low-polarity and low–surface-energy, and therefore naturally show poor water wettability, weak compatibility with water, and pronounced ...
Many medical products can feel comfortable, conform well, be implantable, or enable controlled drug release because polymers are “quietly doing the work” behind the scenes.
Aqueous systems run through both research and industry: waterborne formulations (coatings/adhesives/personal care), biomedical materials (dressings/drug delivery/tissue engineering), separation and water-treatment membranes, and electrolytes/ion-conducting materials, among others.
Fluorinated polyimide (PI) monomers generally refer to dianhydrides, diamines, and dihydric phenols (or other monomers capable of forming an imide-containing backbone) used to synthesize fluorinated polyimides (FPI) and related copolymers. In mainstream PI backbone construction, the most common ...
One of the desirable end-goals of materials science research is the development of multi-functional materials. These materials are defined as compositions that bring more than one property enhancement to a particular application, thus allowing the material to replace more than one other material ...
Conjugated polymers featuring extended p-electron delocalization exhibit properties akin to processable organic "metals" when doped and function as semiconducting materials in their neutral, undoped state. Numerous undoped polymers demonstrate strong photoluminescence (PL) within the visible and ...
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