Le Tu scite author profile

Le Tu

5Publications

150Citation Statements Received

154Citation Statements Given

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Affiliations

Qingdao University of Science and Technology, Central China Normal University, VNU University of Science

Publications

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Long wavelength–emissive Ru(II) metallacycle–based photosensitizer assisting in vivo bacterial diagnosis and antibacterial treatment

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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Ruthenium (Ru) complexes are developed as latent emissive photosensitizers for cancer and pathogen photodiagnosis and therapy. Nevertheless, most existing Ru complexes are limited as photosensitizers in terms of short excitation and emission wavelengths. Herein, we present an emissive Ru(II) metallacycle (herein referred to as 1) that is excited by 808-nm laser and emits at a wavelength of ∼1,000 nm via coordination-driven self-assembly. Metallacycle 1 exhibits good optical penetration (∼7 mm) and satisfactory reactive oxygen species production properties. Furthermore, 1 shows broad-spectrum antibacterial activity (including against drug-resistant Escherichia coli ) as well as low cytotoxicity to normal mammalian cells. In vivo studies reveal that 1 is employed in precise, second near-infrared biomedical window fluorescent imaging–guided, photo-triggered treatments in Staphylococcus aureus –infected mice models, with negligible side effects. This work thus broads the applications of supramolecular photosensitizers through the strategy of lengthening their wavelengths.

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Rationally designed Ru(ii)-metallacycle chemo-phototheranostic that emits beyond 1000 nm

et al. 2022

Chem. Sci.

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Engineered Metallacycle‐Based Supramolecular Photosensitizers for Effective Photodynamic Therapy

Xiong

et al. 2023

Angew Chem Int Ed

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Although metallacycle‐based supramolecular photosensitizers (PSs) have attracted increasing attention in biomedicine, their clinical translation is still hindered by their inherent dark toxicity. Herein, we report what to our knowledge is the first example of a molecular engineering approach to building blocks of metallacycles for constructing a series of supramolecular PSs (RuA–RuD), with the aim of simultaneously reducing dark toxicity and enhancing phototoxicity, and consequently obtaining high phototoxicity indexes (PI). Detailed in vitro investigations demonstrate that RuA–RuD display high cancer cellular uptake and remarkable antitumor activity even under hypoxic conditions. Notably, RuD exhibited no dark toxicity and displayed the highest PI value (≈406). Theoretical calculations verified that RuD has the largest steric hindrance and the lowest singlet‐triplet energy gap (ΔEST, 0.61 eV). Further in vivo studies confirmed that RuD allows safe and effective phototherapy against A549 tumors.

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Recent advances on small-molecule fluorophores with emission beyond 1000 nm for better molecular imaging in vivo

Ouyang

et al. 2019

Chinese Chemical Letters

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Construction of a Smart Nanofluidic Sensor through a Redox Reaction Strategy for High-Performance Carbon Monoxide Sensing

Ouyang

Zhang

et al. 2020

Anal. Chem.

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Carbon monoxide (CO), an important gas signaling molecule, demonstrated various physiological and pathological functions by regulating the ion flux of biological channels. Herein, inspired by the CO-regulated K+ channel in vivo, we propose a smart CO-responsive nanosensor through the redox reaction strategy. Such nanosensor demonstrated an outstanding CO specificity and selectivity with high ion rectification (∼9) as well as excellent stability and recyclability. Therefore, these results will provide a new direction for the design of nanochannel-based sensors for future practical and biological applications.

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Le Tu

Long wavelength–emissive Ru(II) metallacycle–based photosensitizer assisting in vivo bacterial diagnosis and antibacterial treatment

Rationally designed Ru(ii)-metallacycle chemo-phototheranostic that emits beyond 1000 nm

Engineered Metallacycle‐Based Supramolecular Photosensitizers for Effective Photodynamic Therapy

Recent advances on small-molecule fluorophores with emission beyond 1000 nm for better molecular imaging in vivo

Construction of a Smart Nanofluidic Sensor through a Redox Reaction Strategy for High-Performance Carbon Monoxide Sensing

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