Humans rely increasingly on sensors to address grand challenges and to improve quality of
life in the era of digitalization and big data. For ubiquitous sensing, flexible sensors are …

Flexible and stretchable biosensors can offer seamless and conformable biological–
electronic interfaces for continuously acquiring high‐fidelity signals, permitting numerous …

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

Polymeric electronic materials have enabled soft and stretchable electronics. However, the
lack of a universal micro/nanofabrication method for skin-like and elastic circuits results in …

Semiconducting polymer thin films are essential elements of soft electronics for both
wearable and biomedical applications,,,,,,,,,–. However, high-mobility semiconducting …

As a key component in stretchable electronics, semiconducting polymers have been widely
studied. However, it remains challenging to achieve stretchable semiconducting polymers …

Next-generation wearable electronics require enhanced mechanical robustness and device
complexity. Besides previously reported softness and stretchability, desired merits for …

Establishing multi-colour patterning technology for colloidal quantum dots is critical for
realising high-resolution displays based on the material. Here, we report a solution-based …

Essentially all research done to date on the mechanical properties of polymeric
semiconductors (eg, for organic photovoltaics and thin-film transistors) has had the …

Stretchable polymer semiconductors (PSCs) have seen great advancements alongside the
development of soft electronics. But it remains a challenge to simultaneously achieve high …