Shuai‐Shuai Liu scite author profile

Shuai‐Shuai Liu

2Publications

16Citation Statements Received

154Citation Statements Given

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Affiliations

Guizhou University, Jiangsu University of Science and Technology

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Photo‐Stimuli Smart Supramolecular Self‐Assembly of Azobenzene/β‐Cyclodextrin Inclusion Complex for Controlling Plant Bacterial Diseases

Yang

Xiang

et al. 2023

Adv Funct Materials

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Controllable and on‐demand delivery of supramolecular systems have received considerable attention in modern agricultural management, especially for managing intractable plant diseases. Here, an intelligent photoresponsive pesticide delivery system is reported based on β‐cyclodextrin (β‐CD) and azobenzene, which overcomes the resistance of phytopathogens caused by the irrational use of conventional pesticides. Antibacterial bioassays illustrated that designed azobenzene derivative 3a possesses the most efficient bioactivity with EC50 values of 0.52–25.31 µg mL−1 toward three typical phytopathogens. Moreover, the assembly of the supramolecular binary complex 3a@β‐CD is successfully elucidated and displays exceptional inhibitory activity on biofilm formation. Of note, this supramolecular binary complex significantly improves the water solubility, foliar surface wettability, and shows marked light‐responsive properties. In vivo anti‐Xoo assays reveal that 3a@β‐CD has excellent control efficiency (protective activity: 51.22%, curative activity: 48.37%) against rice bacterial blight pathogens, and their control efficiency can be elevated to values of 55.84% (protective activity) and 52.05% (curative activity) by UV–vis exposure. In addition, the 3a@β‐CD are non‐toxic toward various non‐target organisms. This study therefore offers new insights into the potential of host‐guest complexes as a feasible pesticide discovery strategy characterized by a safe, biocompatible, light‐responsive release, and antibiofilm properties for overcoming intractable plant bacterial diseases.

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The FeN₃ Doped Fluorographene for N₂ Fixation: A Density Functional Theory Study

Yang

Liu

et al. 2020

ChemistrySelect

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The ammonia synthesis under ambient condition is of significance for sustainable energy utilization. Herein, the nitrogen reduction reaction (NRR) on FeN 3 embedded graphane and fluorographene are investigated by density functional theory calculations. Our results indicate that the functional fluorographene accelerates electrocatalytic N 2 fixation with an onsetpotential of 0.97 V via alternating mechanism, being superior to the graphane counterpart. Furthermore, the fluorination alleviates the H poisoning and increases NRR selectivity. The improved performance is originated from the strong electronwithdrawing of the F decoration. Moreover, the inferior NRR performance of the FeN 3 decorated graphane indicates the infeasibility as the NRR electrode, reasonably avoiding the experimental attempt. This finding opens up the new design for the carbon-based electrocatalysts with high efficiency of NH 3 synthesis.

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Shuai‐Shuai Liu

Photo‐Stimuli Smart Supramolecular Self‐Assembly of Azobenzene/β‐Cyclodextrin Inclusion Complex for Controlling Plant Bacterial Diseases

The FeN₃ Doped Fluorographene for N₂ Fixation: A Density Functional Theory Study

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Shuai‐Shuai Liu

Photo‐Stimuli Smart Supramolecular Self‐Assembly of Azobenzene/β‐Cyclodextrin Inclusion Complex for Controlling Plant Bacterial Diseases

The FeN3 Doped Fluorographene for N2 Fixation: A Density Functional Theory Study

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The FeN₃ Doped Fluorographene for N₂ Fixation: A Density Functional Theory Study