Zhen Zhang scite author profile

Upconversion nanoparticles (UCNPs) are the preferred choice for deep-tissue photoactivation, owing to their unique capability of converting deep tissue-penetrating near-infrared light to UV/visible light for photoactivation. Programmed photoactivation of multiple molecules is critical for controlling many biological processes. However, syntheses of such UCNPs require epitaxial growth of multiple shells on the core nanocrystals and are highly complex/time-consuming. To overcome this bottleneck, we have modularly assembled two distinct UCNPs which can individually be excited by 980/808 nm light, but not both. These orthogonal photoactivable UCNPs superballs are used for programmed photoactivation of multiple therapeutic processes for enhanced efficacy. These include sequential activation of endosomal escape through photochemical-internalization for enhanced cellular uptake, followed by photocontrolled gene knockdown of superoxide dismutase-1 to increase sensitivity to reactive oxygen species and finally, photodynamic therapy under these favorable conditions. Such programmed activation translated to significantly higher therapeutic efficacy in vitro and in vivo in comparison to conventional, non-programmed activation.

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Chiral recognition of l-tryptophan with beta-cyclodextrin-modified biomimetic single nanochannel

Xie

et al. 2015

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Sensitive and selective off–on rhodamine hydrazide fluorescent chemosensor for hypochlorous acid detection and bioimaging

Zhang¹,

Zheng²,

Wei³

et al. 2011

Talanta

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Zhen Zhang

Upconversion superballs for programmable photoactivation of therapeutics

Chiral recognition of l-tryptophan with beta-cyclodextrin-modified biomimetic single nanochannel

Sensitive and selective off–on rhodamine hydrazide fluorescent chemosensor for hypochlorous acid detection and bioimaging

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