Stretchable polymer semiconductors have advanced rapidly in the past decade as materials
required to realize conformable and soft skin-like electronics become available. Through …

Soft and stretchable electronics have emerged as highly promising tools for biomedical
diagnosis and biological studies, as they interface intimately with the human body and other …

Stretchable polymer semiconductors (PSCs) are essential for soft stretchable electronics.
However, their environmental stability remains a longstanding concern. Here we report a …

The development of water‐soluble aggregation‐induced emission luminogens (AIEgens)
emitting in the near‐infrared (NIR) window holds promise for efficient biomedical …

Interfacing the surface of an organic semiconductor with biological elements is a central
quest when it comes to the development of efficient organic bioelectronic devices. Here, we …

Biofunctionalized conjugated polymers (ie, carrying enzymes, antibodies, and nucleic acids)
are of great interest for many biological applications, yet efficient biofunctionalization of …

Orienting intelligence and multifunction, stretchable semiconductors are of great significance
in constructing next-generation human-friendly wearable electronic devices. Nevertheless …

The development of organic field-effect transistor (OFET) chemical sensors with high
sensing performance and good air stability has remained a persistent challenge, thereby …

Benzothiadiazole (BT) is an organic heterocyclic compound characterized by a fused
benzene and thiadiazole ring system with the ability to withdraw electrons due to the …

Future electronics will play a more critical role in people's lives, as reflected in the realization
of advanced human–machine interfaces, disease detection, medical treatment, and health …