Guanglin Wang

TL;DR: Ultrasmall PEGylated Cu2-x Se nanoparticles with strong near-infrared absorption have been prepared by an ambient aqueous method and are demonstrated to be a novel nanotheranostic agent for effective deep-tissue photoacoustic imaging, computed tomography imaging, single-photon emission computed tomographic imaging, and photothermal therapy of cancer.

TL;DR: Ultrasmall biocompatible WO3 - x nanodots with an outstanding X-ray radiation sensitization effect are prepared, and demonstrated to be applicable for multi-modality tumor imaging through computed tomography and photoacoustic imaging, and effective cancer treatment combining both photothermal therapy and radiation therapy.

TL;DR: This work demonstrates the potential of ultrasmall Bi2Se3 nanodots in multimodal imaging-guided synergetic radiophotothermal therapy of cancer and exhibits a high photothermal conversion efficiency.

TL;DR: In subcutaneous and orthotopic tumor models in mice, nanopolymersomes with an unprecedented iodine content, low viscosity, and iso-osmolality show enhanced in vivo imaging when compared to iohexol, a clinically used small-molecule contrast agent.

TL;DR: Small, traceable, endosome-disrupting, and bioresponsive hyaluronic acid NG (HA-NG) for CD44-targeted intracellular delivery of therapeutic proteins with easy and controlled fabrication hold a great potential for targeted protein therapy.