The development of π-conjugated polymers has provided a gateway to a variety of new
functional organic materials reminiscent of inorganic semiconductors. Nanoparticles based …

Surface bio‐engineering of polymeric nanoparticles (PNPs) has emerged as a cornerstone
in contemporary biomedical research, presenting a transformative avenue that can …

The materials community has witnessed a complexity expansion in semiconducting
polymers by structural engineering. The most thriving area of polymeric semiconductors lies …

Two new glycolated semiconducting polymers PgBT (F) 2gT and PgBT (F) 2gTT of differing
backbone curvatures were designed and synthesised for application as p‐type …

Post-polymerisation functionalisation provides a facile and efficient way for the introduction
of functional groups on the backbone of conjugated polymers. Using post-polymerisation …

Semiconducting polymer nanoparticles (SPNs) are explored for applications in cancer
theranostics because of their high absorption coefficients, photostability, and …

Conjugated polymers exhibit interesting material and optoelectronic properties that make
them well‐suited to the development of biointerfaces. Their biologically relevant mechanical …

The dramatic improvement of the PCE (power conversion efficiency) of organic photovoltaic
devices in the past few years has been driven by the development of new polymer donor …

Functionalized polymeric mixed ionic–electronic conductors (PMIECs) are highly desired for
the development of electrochemical applications, yet are hindered by the limited …

Highly efficient reactions that enable the assembly of molecules into complex structures
have driven extensive progress in synthetic chemistry. In particular, reactions that occur …