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169 results on '"Yao Wen-Dong"'

1. Fabrication of A Folic Acid-Modified Arsenic Trioxide Prodrug Liposome and Assessment of its Anti-Hepatocellular Carcinoma Activity

Author

Zhu Jing-Jing, Chen Xiao-Jie, Yao Wen-Dong, Wei Ying-Hui, Zheng Hang-Sheng, Zheng Hong-Yue, Zhu Zhi-Hong, Wang Bin-Hui, and Li Fan-Zhu

Subjects
Target-controlled drug delivery system, Liver cancer, Arsenic trioxide, Calcium arsenite, Liposomes, pH-sensitive, Medicine, Other systems of medicine, RZ201-999
Abstract

Objective: To reduce the toxicity and side effects of arsenic trioxide (ATO) and provide a new approach for the treatment of primary liver cancer, a folic acid-modified calcium arsenite liposomal “target-controlled” drug delivery system (FA-LP-CaAs) was fabricated using the reverse microemulsion method. Methods: A Malvern particle size analyzer and a transmission electron microscope were employed to determine the particle size, distribution, zeta potential and morphology of FA-LP-CaAs. Further, inductively coupled plasma emission spectrometry was employed to determine the drug loading capacity, entrapment efficiency, and in vitro release behavior of FA-LP-CaAs. To determine its toxicity in human hepatoma cells (HepG2) and human normal hepatocytes (LO2) and its effect on HepG2 cell cycle and apoptosis, the MTT method was used. Laser confocal and flow cytometry were also employed to determine the uptake of FA-LP-CaAs by cells. After establishing a mouse liver cancer model, the in vivo distribution of the drug included in the formulation was investigated using in vivo fluorescence. To evaluate the liver cancer targeting and anti-tumor effects of FA-LP-CaAs in vivo, the distribution of ATO in tissues and changes in tumor volume and body weight after liposomal administration were investigated using hematoxylin-eosin (HE)-stained tumor sections. Results: The particle size, zeta potential and PDI of FA-LP-CaAs were (122.67 ± 2.18) nm, (12.81 ± 0.75) mV and 0.22 ± 0.01, respectively, while its drug loading capacity was 18.49% ± 1.14%. In vitro experimental results revealed that FA-LP-CaAs had a strong killing effect on HepG2 cells. Further, the cell uptake capacity of this formulation was found to improve. Based on in vivo assessments, FA-LP-CaAs could significantly increase the distribution of ATO in tumor sites and inhibit tumor growth. Conclusions: Herein, an FA-LP-CaAs formulation was successfully fabricated. This liposomal drug delivery system had a round appearance, uniform particle size, good polydispersity coeffi-cient, evident “core-shell” structure, high drug loading capacity and pH response, tumor targeted drug delivery and sustained drug release. These findings support further research and the application of ATO as an anti-liver cancer prodrug and provide a new method for the treatment of liver cancer.

Published
2020
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22. From CaBaM2F12to K2BaM2F12(M = Zr, Hf): Heterovalent Cation-Substitution-Induced Symmetry Break and Nonlinear-Optical Activity

Author

Yan, Mei, Tang, Ru-Ling, Yao, Wen-Dong, Liu, Wenlong, and Guo, Sheng-Ping

Abstract

Designing short-wavelength nonlinear-optical (NLO) crystals is of vital importance for laser applications. Here, the combination of alkaline-earth metals, d0transition metals, and F atom has generated two new and isostructural fluorides, CaBaZr2F12(CBZF) and CaBaHf2F12(CBHF), which adopt centrosymmetric space group I4/mmm. Taking CBZF and CBHF as the parents, two new fluorides, K2BaZr2F12(KBZF) and K2BaHf2F12(KBHF), with an Imm2 polar structure were obtained via a heterovalent cation substitution strategy. All four compounds feature ZrF8-dodecahedra-built {[Zr2F12]4–}∞chains and show short ultraviolet cutoff edges (<200 nm). KBZF and KBHF show phase-matchable behavior with moderate second-harmonic-generation responses [0.6 and 0.35 × KH2PO4(KDP)] under 1064 nm laser radiation. This work enriches fluorides as promising short-wavelength NLO materials.

Published
2024
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31. Pentanary Oxythiogermanates Ba3MGe3O2S8(M = Ca, Zn) Featuring [Ge3O2S8]8–Trimers and {[MGe3O2S8]6–}8Chains: Structural Chemistry and Physical Properties

Author

Fan, Xin-Xin, Yang, Mei, Yao, Wen-Dong, Zhou, Wenfeng, Jiang, Tengfei, Liu, Wenlong, and Guo, Sheng-Ping

Abstract

Oxychalcogenides are increasingly attracting wide attention because they contain multiple anions that may combine the advantages of oxides and chalcogenides. In this work, two new pentanary oxythiogermanates, Ba3MGe3O2S8[M = Ca (1), Zn (2)], were synthesized by a high-temperature solid-state reaction. They crystallize in the orthorhombic space group Pnma, and their structures contain isolated [Ge3O2S8]8–units constructed by one [GeO2S2] and two [GeOS3] tetrahedra that link with M2+ions to build the {[MGe3O2S8]6–}8chain, representing a new type of oxythiogermanate. Notably, a [ZnS5] square pyramid exists in 2. Their structural chemistry and relationship with relevant structures are analyzed. 1and 2exhibit wide band gaps of 3.93 and 2.63 eV, birefringences of 0.100 and 0.089 at 2100 nm, respectively, and also obvious photocurrent responses. This work may be extended to a family of AE3MIIMIV3O2Q8(AE = alkali-earth metal; MII= Ca, Zn, Cd, Hg; MIV= Si, Ge, Sn; Q = S, Se), and further systematic survey on them can be performed to enrich the study of multifunctional oxychalcogenides.

Published
2024
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32. Hg16O12(NO3)6F2(H2O): A Mercury-Rich Nitrate Oxyfluoride with Diverse Triple-Coordinated Mercury-Based Units That Exhibits an Unparalleled [(Hg16O12F2(H2O))6+]∞Cationic Framework and a Large Birefringence

Author

Lv, Yi-Lei, Xu, Wei, Yao, Wen-Dong, Xu, Miao-Bin, Liu, Wenlong, Guo, Sheng-Ping, and Tang, Ru-Ling

Abstract

Designing new compounds based on anion regulation has been widely favored due to the production of diverse crystal structures and excellent optical properties. Here, a new nitrate oxyfluoride, Hg16O12(NO3)6F2(H2O), has been obtained through a hydrothermal reaction. It crystallizes in the centric Ibcaspace group and shows a novel three-dimensional [(Hg16O12F2(H2O))6+]∞cationic framework composed of interconnected HgO2F, HgO3, and HgO2(H2O) units, with isolated NO3–groups as balanced anions to build the whole structure. Notably, the HgO2F and HgO2(H2O) units are first presented here among mercury (Hg)-based compounds. Additionally, Hg16O12(NO3)6F2(H2O) exhibits a large birefringence of 0.17 at 546 nm. This work enriches the multiformity of Hg-based compounds and provides a route for developing promising birefringent materials.

Published
2024
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33. KREP2S6(RE = Sm, Gd, Tb, Dy): A Series of Polar Rare-Earth Thiophosphates with High Laser-Induced Damage Thresholds and Moderate Nonlinear-Optical Responses Synergistically Contributed by Isolated P2S6Units and {[RE2S15]24–}∞Layers

Author

Zhao, Chen-Yi, Yao, Wen-Dong, Li, Ming-Yang, Zhou, Wenfeng, Liu, Wenlong, and Guo, Sheng-Ping

Abstract

As one of the potential candidates of nonlinear-optical (NLO) materials, rare-earth chalcophosphates have demonstrated promising properties. Here, KREP2S6(RE = Sm, Gd, Tb, Dy) were synthesized using the facile RE2O3-B-S solid-state method. They crystallize with a monoclinic chiral P21structure, and their layer structures are built by isolated ethane-like P2S6dimers and RES8bicapped trigonal prisms built {[RE2S15]24–}∞layers. By comparing the structures with related ones, the change of the alkali metal or RE3+ions can cause structural transformation. Their band gaps are tunable between 2.58 and 3.79 eV, and their powder samples exhibit good NLO properties. Theoretical calculations suggest that the NLO properties are mainly contributed by P2S6units and {[RE2S15]24–}∞layers synergistically, in which {[RE2S15]24–}∞layers and P2S6units dominate the contribution to the band gap and second-harmonic-generation response, respectively. This work enriches the application of rare-earth chalcophosphates as NLO materials.

Published
2024
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46. Eu2MGe2OS6(M = Mn, Fe, Co): Three Melilite-Type Rare-Earth Oxythiogermanates Exhibiting Balanced Nonlinear-Optical Behaviors

Author

Zhang, Nan, Huang, Xiao, Yao, Wen-Dong, Chen, Yao, Pan, Zheng-Rui, Li, Bingxuan, Liu, Wenlong, and Guo, Sheng-Ping

Abstract

Metal oxychalcogenides as candidates for novel mid-infrared nonlinear-optical materials have attracted great interest due to the distinctive advantages of oxides and chalcogenides in this field. Herein, the first melilite-type rare-earth (RE) oxythiogermanates Eu2MGe2OS6[M = Mn (1), Fe (2), Co (3)] are obtained by combining RE metals with localized f electrons, magnetic transition metals with delocalized d electrons, and the highly distorted mixed anionic group [GeOS3] into one structure. They belong to the tetragonal P4̅21mspace group, and highly distorted [EuOS7] bicapped trigonal prisms bridge adjacent {[MGe2OS6]4–}∞layers to build the three-dimensional network. Their optical band gaps are determined as 2.40, 2.11 and 2.14 eV, and they show moderate second-harmonic-generation (SHG) responses (0.3, 0.3 and 0.5 × AGS) and large laser-induced damage thresholds (2.77–8.31 × AGS). Theoretical calculation results indicate that the synergistic effect of [EuOS7] and [MS4] units acts on the SHG effect. This work enriches the crystal chemistry of melilite-structure materials.

Published
2023
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