Polymer chemistry is central to the development of new technologies and substances. Materials based upon natural and synthetic organic macromolecules, polymers, and hybrid derivatives have enormous ...
Polymer chemistry continues to evolve through the design and synthesis of complex macromolecular architectures that underpin a broad spectrum of advanced materials. Brush polymerization, a specialised ...
For Frank Leibfarth, focussing on reactivity and selectivity helps him bridge the gap between fundamental and applied ...
Polymer chemistry is transforming industries, from sustainable materials to biomedicine. Over his decades as a professor of materials, chemistry and biochemistry at UC Santa Barbara, Craig Hawker’s ...
Researchers at Columbia Engineering have developed a new gel electrolyte that both improves the lifetime and safety of ...
The global smart polymers market, valued at US$5.11 billion in 2024, is set to grow to US$7.67 billion by 2030, driven by a significant surge in demand across industries like biomedical, automotive, ...
Supramolecular chemistry leverages non‐covalent interactions to assemble discrete molecular components into complex, dynamic architectures. In the context of polymers, this approach enables the ...
The ACS GCI Natural Polymers Consortium (NPC) is a group committed to exploring the utilization of natural polymers to accelerate the development of more sustainable functional materials. Launched in ...
Electrochemical processes in devices like solar cells, fuel cells, lithium batteries, and water desalination systems rely on the safe, efficient, and robust transport of anions and cations between ...
A recent study by researchers from Institute of Science Tokyo unveils the molecular mechanisms explaining why some "stealth" ...
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