Tanyong Wei

TL;DR: A magnet-driven and image-guided degradable microrobot that can precisely deliver engineered stem cells for orthotopic liver tumor treatment and demonstrates its therapeutic effect in preclinical test is presented.

TL;DR: In this article, a passive wireless sensor for simultaneously and remotely measuring pressure and temperature under harsh environments is presented, which consists of a dual $LC$ (inductor and capacitor) resonant circuit, one without a cavity and the other with a cavity capacitor for temperature and pressure sensing.

TL;DR: Experiments demonstrated that the microswimmer can be degraded successfully, which allows it to be safely applied in real-time in vivo environments and has great potential in future in vivo applications such as precision medicine, drug delivery, and diagnosis.

TL;DR: This paper demonstrates the translational and rotational manipulation of filamentous cells using multiple cooperative microrobots automatically driven by holographic optical tweezers to enable fruitful biomedical applications where precise cell manipulation and less photodamage are required.

TL;DR: In this paper, a new indirect cell micromanipulation approach combined with a robot-aided holographic optical tweezer system and 3D nano-printed microtool was proposed, which could be useful in complex biomedical applications where precise cell manipulation and less laser exposure are required.