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Analysis of Pharmacodynamic Substance Basis of Fufang Changtai in Treating Colorectal Cancer by UPLC-Q-TOF-MS Combined with Network Pharmacology
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作者 jingbing liu Guanzheng LU +4 位作者 Xinyue SU Ziyu JIANG Xiaobin JIA Shuaimei liu Liang FENG 《Medicinal Plant》 CAS 2023年第2期8-14,共7页
[Objectives] To systematically study the main active components of Fufang Changtai(FFCT) in the treatment of colorectal cancer(CRC), and to explore its mechanism of action. [Methods] The main chemical components of FF... [Objectives] To systematically study the main active components of Fufang Changtai(FFCT) in the treatment of colorectal cancer(CRC), and to explore its mechanism of action. [Methods] The main chemical components of FFCT were analyzed by ultra-high performance liquid chromatography with quadrupole time-of-flight mass spectrometry(UPLC-Q-TOF-MS) combined with automatic analysis platform, and the main pharmacodynamic substances of FFCT were studied by network pharmacology method and its mechanism of action was explored. The binding degree between the active components and the core targets were verified by molecular docking technology. [Results] A total of 86 compounds were identified from FFCT, among which 26 compounds were Ginsenoside Rg3, Ginsenoside Rb1, Astragaloside III, etc. The key target pathway enrichment analysis showed that FFCT played its role in the treatment of CRC mainly through the PI3K-Akt signaling pathway and MAPK signaling pathway. [Conclusions] This study comprehensively identified the FFCT components. Supplemented by network pharmacology and molecular docking technology, it is expected to provide a scientific theoretical basis and an important reference for FFCT therapeutic components identification, key target verification and mechanism of action in the treatment of CRC. 展开更多
关键词 Fufang Changtai(FFCT) Ultra-high performance liquid chromatography with quadrupole time-of-flight mass spectrometry(UPLC-Q-TOF-MS) Network pharmacology Active components Mechanism of action Colorectal cancer(CRC) Molecular docking
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Research Progress in Improving the Cycling Stability of High-Voltage LiNi0.5Mn1.5O4 Cathode in Lithium-Ion Battery 被引量:10
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作者 XiaoLong Xu SiXu Deng +2 位作者 Hao Wang jingbing liu Hui Yan 《Nano-Micro Letters》 SCIE EI CAS 2017年第2期97-115,共19页
High-voltage lithium-ion batteries(HVLIBs) are considered as promising devices of energy storage for electric vehicle, hybrid electric vehicle, and other high-power equipment. HVLIBs require their own platform voltage... High-voltage lithium-ion batteries(HVLIBs) are considered as promising devices of energy storage for electric vehicle, hybrid electric vehicle, and other high-power equipment. HVLIBs require their own platform voltages to be higher than 4.5 V on charge. Lithium nickel manganese spinel LiNi_(0.5)Mn_(1.5)O_4(LNMO) cathode is the most promising candidate among the 5 V cathode materials for HVLIBs due to its flat plateau at 4.7 V. However, the degradation of cyclic performance is very serious when LNMO cathode operates over 4.2 V. In this review, we summarize some methods for enhancing the cycling stability of LNMO cathodes in lithium-ion batteries, including doping, cathode surface coating,electrolyte modifying, and other methods. We also discuss the advantages and disadvantages of different methods. 展开更多
关键词 High-voltage cathode LINI0.5MN1.5O4 Lithium-ion battery Cycling stability Platform voltage
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The Surface Coating of Commercial LiFePO_4 by Utilizing ZIF-8 for High Electrochemical Performance Lithium Ion Battery 被引量:10
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作者 XiaoLong Xu CongYu Qi +5 位作者 ZhenDong Hao Hao Wang JinTing Jiu jingbing liu Hui Yan Katsuaki Suganuma 《Nano-Micro Letters》 SCIE EI CAS 2018年第1期3-11,共9页
The requirement of energy-storage equipment needs to develop the lithium ion battery(LIB) with high electrochemical performance. The surface modification of commercial LiFePO_4(LFP) by utilizing zeolitic imidazolate f... The requirement of energy-storage equipment needs to develop the lithium ion battery(LIB) with high electrochemical performance. The surface modification of commercial LiFePO_4(LFP) by utilizing zeolitic imidazolate frameworks-8(ZIF-8) offers new possibilities for commercial LFP with high electrochemical performances.In this work, the carbonized ZIF-8(C_(ZIF-8)) was coated on the surface of LFP particles by the in situ growth and carbonization of ZIF-8. Transmission electron microscopy indicates that there is an approximate 10 nm coating layer with metal zinc and graphite-like carbon on the surface of LFP/C_(ZIF-8) sample. The N_2 adsorption and desorptionisotherm suggests that the coating layer has uniform and simple connecting mesopores. As cathode material, LFP/C_(ZIF-8) cathode-active material delivers a discharge specific capacity of 159.3 m Ah g^(-1) at 0.1 C and a discharge specific energy of 141.7 m Wh g^(-1) after 200 cycles at 5.0 C(the retention rate is approximate 99%). These results are attributed to the synergy improvement of the conductivity,the lithium ion diffusion coefficient, and the degree of freedom for volume change of LFP/C_(ZIF-8) cathode. This work will contribute to the improvement of the cathode materials of commercial LIB. 展开更多
关键词 LIFEPO4 Zeolitic imidazolate frameworks-8 Surface coating CATHODE Lithium ion battery
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Recent progresses in the suppression method based on the growth mechanism of lithium dendrite 被引量:9
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作者 Xiaolong Xu Suijun Wang +4 位作者 Hao Wang Chen Hu Yi Jin jingbing liu Hui Yan 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2018年第2期513-527,共15页
Lithium secondary batteries(LSBs) with high energy densities need to be further developed for future applications in portable electronic devices, electric vehicles, hybrid electric vehicles and smart grids. Lithium ... Lithium secondary batteries(LSBs) with high energy densities need to be further developed for future applications in portable electronic devices, electric vehicles, hybrid electric vehicles and smart grids. Lithium metal is the most promising electrode for next-generation rechargeable batteries. However, the formation of lithium dendrite on the anode surface leads to serious safety concerns and low coulombic efficiency.Recently, researchers have made great efforts and significant progresses to solve these problems. Here we review the growth mechanism and suppression method of lithium dendrite for LSBs’ anode protection. We also establish the relationship between the growth mechanism and suppression method. The research direction for building better LSBs is given by comparing the advantages and disadvantages of these methods based on the growth mechanism. 展开更多
关键词 Lithium dendrite Growth mechanism Suppression method Lithium secondary battery
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Research Progress in Improving the Rate Performance of LiFePO_4 Cathode Materials 被引量:6
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作者 Sixu Deng Hao Wang +2 位作者 Hao liu jingbing liu Hui Yan 《Nano-Micro Letters》 SCIE EI CAS 2014年第3期209-226,共18页
Olivine lithium iron phosphate(Li Fe PO4) is considered as a promising cathode material for high power density lithium ion battery due to its high capacity, long cycle life, environmental friendly, low cost, and safet... Olivine lithium iron phosphate(Li Fe PO4) is considered as a promising cathode material for high power density lithium ion battery due to its high capacity, long cycle life, environmental friendly, low cost, and safety consideration. The theoretical capacity of Li Fe PO4 based on one electron reaction is 170 m Ah g-1at the stable voltage plateau of 3.5 V vs. Li/Li+. However, the instinct drawbacks of olivine structure induce a poor rate performance, resulting from the low lithium ion diffusion rate and low electronic conductivity.In this review, we summarize the methods for enhancing the rate performance of Li Fe PO4 cathode materials,including carbon coating, elements doping, preparation of nanosized materials, porous materials and composites,etc. Meanwhile, the advantages and disadvantages of above methods are also discussed. 展开更多
关键词 LIFEPO4 Lithium ion battery Rate performance
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二维材料功能化隔膜在锂电池中的应用 被引量:1
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作者 唐家东 郑静 +4 位作者 郝振东 赵晴 张倩倩 刘晶冰 汪浩 《科学通报》 EI CAS CSCD 北大核心 2021年第20期2555-2572,共18页
功能化隔膜对于锂二次电池的安全性能和电化学性能有着重要影响.相比于其他改性传统聚烯烃隔膜的材料,二维材料具有超薄的片层结构、高机械强度、高比面积以及可调的表面化学性质等优势.本文综述了不同类型二维材料功能化隔膜在解决锂... 功能化隔膜对于锂二次电池的安全性能和电化学性能有着重要影响.相比于其他改性传统聚烯烃隔膜的材料,二维材料具有超薄的片层结构、高机械强度、高比面积以及可调的表面化学性质等优势.本文综述了不同类型二维材料功能化隔膜在解决锂硫电池中多硫化物的穿梭效应、锂金属电池中负极枝晶生长问题,以及锂离子电池中传统聚烯烃隔膜润湿性和热稳定差等问题的研究进展.最后,讨论了二维材料在锂电池隔膜中面临的机遇和挑战. 展开更多
关键词 二维材料 隔膜 穿梭效应 枝晶生长 安全性 循环稳定性
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