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Ultrathin tellurium nanosheets for simultaneous cancer thermo-chemotherapy

Wen Pan, Chuang LIU, Yunhui Li, Yang Yang, Wenliang Li, Chan Feng, Lei‐Jiao Li

2021Bioactive Materials43 citationsDOIOpen Access PDF

Abstract

The emerging two-dimensional monoelemental materials (2D Xenes) have been commonly supposed as promising drug delivery carriers, photothermal and photodynamic therapeutic agents, biosensors, theranostics, and some other candidates for biomedical applications. Here, high-performance and bioactive ultrathin 2D Tellurium nanosheets (Te NSs) are prepared by a simple but efficient liquid-phase exfoliation approach. The as-obtained Te NSs possess a mean size of ∼90 nm and a mean thickness of ∼5.43 nm. The pegylation Te NSs (Te-PEG NSs) possess excellent biocompatibility and stability. The Te-PEG NSs could generate local hyperthermia with a remarkable photothermal conversion efficiency of about 55% under 808 nm laser irradiation. Additionally, Te-PEG NSs exhibit an extremely high loading capacity of chemo drug (∼162%) owing to their ultra-high surface area and tumor microenvironment-triggered drug release superiority. The results of in vivo experiments show that the Te-PEG NSs have higher tumor elimination efficiency via the combination of photothermal and chemotherapy, comparing to any other single therapeutic modalities. Therefore, our work not only highlights the promising potentials of tellurene as an ideal anti-cancer platform but also expands the application of 2D Te for cancer nanomedicine.

Topics & Concepts

Photothermal therapyMaterials scienceBiocompatibilityNanotechnologyNanomedicineDrug deliveryPEGylationExfoliation jointNanoparticlePolyethylene glycolChemistryGrapheneOrganic chemistryMetallurgy2D Materials and ApplicationsNanoplatforms for cancer theranosticsMXene and MAX Phase Materials
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