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- Title
Biomimetic Synthesis of Ag<sub>2</sub>Se Quantum Dots with Enhanced Photothermal Properties and as "Gatekeepers" to Cap Mesoporous Silica Nanoparticles for Chemo–Photothermal Therapy.
- Authors
Li, Xianglong; Liu, Zexiu; Luo, Kai; Yin, Xiuhui; Lin, Xucong; Zhu, Chunling
- Abstract
Ag2Se quantum dots (QDs) with near‐infrared (NIR) fluorescence have been widely utilized in NIR fluorescence imaging in vivo because of their narrow bulk band gap and excellent biocompatibility. However, most of synthesis methods for Ag2Se QDs are expensive and the reactants are toxic. Herein, a new protein‐templated biomimetic synthesis approach is proposed for the preparation of Ag2Se QDs by employing bovine serum albumin (BSA) as a template and dispersant. The BSA‐templated Ag2Se QDs (Ag2Se@BSA QDs) showed NIR fluorescence with high fluorescence quantum yield (≈21.2 %), excellent biocompatibility and good dispersibility in different media. Moreover, the obtained Ag2Se@BSA QDs exhibited remarkable photothermal conversion (≈27.8 %), which could be used in photothermal therapy. As a model application in biomedicine, the Ag2Se@BSA QDs were used as "gatekeepers" to cap mesoporous silica nanoparticles (MSNs) by means of electrostatic interaction. By taking the advantages of NIR fluorescence and photothermal property of Ag2Se@BSA QDs, the obtained MSN‐DOX‐Ag2Se nanoparticles (MDA NPs) were employed as a nanoplatform for combined chemo‐photothermal therapy. Compared with free DOX and MDA NPs without NIR laser, the laser‐treated MDA NPs exhibited lower cell viability in vitro, implying that Ag2Se@BSA QDs are highly promising photothermal agents and the MDA NPs are potential carriers for chemo–photothermal therapy. From far and NIR: Ag2Se quantum dots with high NIR fluorescence and high photothermal conversion efficiency were synthesized by using a BSA‐templated biomimetic approach. Further, Ag2Se QDs were used as "gatekeeper" in a mesoporous silica nanoparticle drug‐delivery system for chemo–photothermal therapy.
- Subjects
QUANTUM dots; SILICA nanoparticles; BIOMIMETIC chemicals; PHOTOTHERMAL effect; MESOPOROUS silica
- Publication
Chemistry - An Asian Journal, 2019, Vol 14, Issue 1, p155
- ISSN
1861-4728
- Publication type
Article
- DOI
10.1002/asia.201801388