Jichuan Qiu

TL;DR: This study illustrates the customizability of the rGO-PEDOT hybrid microfiber for neural tissue engineering scaffolding applications, underlines the potential of a self-powered TENG electrical stimulation system for accelerating MSC differentiation into neural cells without bio/chemical cues, and suggests the TENG's practical use as a wearable stimulation system to assist nerve regeneration for a walking person.

TL;DR: The advances over the past 10 years in utilizing PCMs as a versatile platform for the encapsulation and release of various types of therapeutic agents and biological effectors are highlighted and a range of applications enabled by the controlled release system based on PCMs are presented.

TL;DR: In this paper, a double-shelled NiO/rGO/TiO 2 heterostructured coaxial nanocables with zero-bandgap graphene at the interface between p-type NiO and n-type TiO 2 can further enhance the separation of photogenerated carriers.

TL;DR: This study demonstrated that the PADM-rGO hybrid scaffold is a promising scaffold for neural tissue engineering; this scaffold can not only support the growth of MSCs at a high proliferation rate but also enhance the differentiation of M SCs into neural cells.

TL;DR: The results demonstrated the feasibility of using GQDs as traceable drug delivery systems with the ability for the pH-triggered delivery of drugs into target cells.