Yong-Lan Liu scite author profile

Yong-Lan Liu

3Publications

7Citation Statements Received

86Citation Statements Given

How they've been cited

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127

Affiliations

The Synergetic Innovation Center for Advanced Materials, Nanjing Tech University, Liaoning Medical University

Publications

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Thiophene and diaminobenzo- (1,2,5-thiadiazol)- based DAD-type near-infrared fluorescent probe for nitric oxide: A theoretical research

et al. 2023

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A near-infrared fluorescent probe (LS-NO) for the real-time detection of nitric oxide (NO) in inflammatory bowel disease (IBD) was developed recently. The probe used oligoglycol morpholine-functionalized thiophene as strong electron donors and diaminobenzene (1,2,5-thiadiazole) as a weak electron acceptor and NO trapping group. It could detect exogenous and endogenous NO in the lysosomes of living cells with high sensitivity and specificity. To further understand the fluorescent mechanism and character of the probes LS-NO and LS-TZ (after the reaction of the probe LS-NO with NO), the electron transfer in the excitation and emitting process within the model molecules DAD-NO and DAD-TZ was analyzed in detail under the density functional theory. The calculation results indicated the transformation from diaminobenzene (1,2,5-thiadiazole) as a weak electron acceptor to triazolo-benzo-(1,2,5-thiadiazole) as a strong electron acceptor made LS-NO an effective “off–on” near-infrared NO fluorescent probe.

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Enhanced CO Adsorption by Modulating the Electron Density Distribution of Graphite‐Copper Porphyrin Sorbents with Light

Liu

et al. 2023

Angew Chem Int Ed

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The photo-responsive adsorption has emerged as a vibrant area, but its current methodology is limited by the well-defined photochromic units and their molecular deformation driven by photo-stimuli. Herein, a methodology of nondeforming photo-responsiveness is successfully exploited. With the exploiting agent of Cu-TCPP framework assembled on the graphite and strongly interacted with it, the sorbent generates two kinds of adsorption sites, over which the electron density distribution of the graphite layer can be modulated at the c-axis direction, which can further evolve due to photo-stimulated excited states. The excited states are stable enough to meet the timescale of microscopic adsorption equilibrium. Independent of the ultra-low specific surface area of the sorbent (20 m 2 g À 1 ), the CO adsorption capability can be improved from 0.50 mmol g À 1 at the ground state to 1.24 mmol g À 1 (0 °C, 1 bar) with the visible light radiation, rather than the photothermal desorption.

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Enhanced CO Adsorption by Modulating the Electron Density Distribution of Graphite‐Copper Porphyrin Sorbents with Light

Liu

et al. 2023

Angewandte Chemie

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Yong-Lan Liu

Thiophene and diaminobenzo- (1,2,5-thiadiazol)- based DAD-type near-infrared fluorescent probe for nitric oxide: A theoretical research

Enhanced CO Adsorption by Modulating the Electron Density Distribution of Graphite‐Copper Porphyrin Sorbents with Light

Enhanced CO Adsorption by Modulating the Electron Density Distribution of Graphite‐Copper Porphyrin Sorbents with Light

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