文献类型: 外文期刊
第一作者: Yang, Kexin
作者: Yang, Kexin;Huang, Yanyan;Lin, Huan;Zhao, Yiming;Hou, Yushan;Zhou, Jie;Zhao, Chenxi;Qi, Chenyu;Li, Lingyun;Yin, Chen;Liu, Guangyang;Xu, Donghui;Yang, Kexin;Hou, Yushan;Zhao, Chenxi;Qi, Chenyu;Zhang, Yaowei;Cao, Gaofeng;Liu, Miaomiao;Liu, Guangyang;Xu, Donghui
作者机构:
关键词: Mussel -inspired; Covalent organic frameworks; Metal -phenolic network; Adsorption; Detection
期刊名称:JOURNAL OF MOLECULAR LIQUIDS ( 影响因子:5.3; 五年影响因子:5.1 )
ISSN: 0167-7322
年卷期: 2024 年 407 卷
页码:
收录情况: SCI
摘要: Inspired by the surface structure of mussel, a novel bionic adsorbent (MPN@COFs) was prepared using an in situ synthetic strategy for the selective adsorption of caffeine and the physicochemical structure, surface morphology and composition of were characterized by scanning electron microscopy, Fourier-transform infrared spectrometry, X-ray photoelectron spectroscopy. The analytical data showed that the specific surface area of MPN @ COF was as high as 133.62 m2/g, which was stable and adaptable to acid and alkaline environments, with a adsorption rate of 78 %, and still maintained a high adsorption rate after reuse for three times. The adsorption isotherms and adsorption kinetics fit the Langmuir model and the quasi-secondary kinetic model better, respectively. Compared with single COFs and MPN, the adsorption efficiency of MPN@COFs increased by 40.54 % and 57.65 %, respectively. Moreover, the composite material could be reused three times, the HPLC-MS/MS method established in this study has high sensitivity, and this rapid detection technique can provide strong support for the detection of caffeine in beverages and the removal of caffeine from tea and its products.
分类号:
- 相关文献
作者其他论文 更多>>
-
Machine learning prediction of biochar-specific surface area based on plant characterization information
作者:Jiang, Zihao;Xia, Qi;Lu, Xueying;Yue, Wenjing;Liu, Xiaogang;Chen, Juhui;Zhao, Chenxi;Chen, Aihui
关键词:Machine learning; Biomass; Pyrolysis; Biochar; Specific surface area; Plant organs
-
Winter green manure cultivation benefits soil quality and ecosystem multifunctionality under upland paddy rotations in tropics
作者:Liu, Qi;Yao, Wei;Zeng, Zhaohai;Zang, Huadong;Liu, Qi;Yao, Wei;Qi, Zhiqiang;Liu, Qi;Yao, Wei;Yang, Yadong;Zeng, Zhaohai;Zang, Huadong;Zhou, Jie;Peixoto, Leanne;Mganga, Kevin Z.;Qi, Zhiqiang
关键词:Green manure; Winter fallow; Ecosystem multifunctionality; Cropping systems; Soil quality
-
OsHARBI1-1 enhances cadmium tolerance in yeast through YAP1 mediated modulation of cell wall integrity genes and catalase genes
作者:Shi, Yang;Jiang, Nan;Jiang, Wenjun;Jiao, Yuan;Zhou, Yingxu;Wu, Longying;Huang, Jin;Shi, Yang;Chen, Ji;Wu, Lijuan;Huang, Yanyan;Li, Deqiang;Kumar, Vinod;Hu, Binhua;Huang, Jin
关键词:antioxidant; cadmium tolerance; cell wall;
HARBI1 ;Saccharomyces cerevisiae ;YAP1 -
Comprehensive Analysis of Trypoxylus dichotomus: Inorganic Elements, Amino Acids, and Bioactive Compounds and Their Anticancer, Antioxidant, and Neuroprotective Properties
作者:Ye, Dongyan;Li, Qianhui;Liu, Xuwen;Zhou, Jie;Yin, Shuren;Zhang, Suyi;Wang, Jing;Bai, Helong;Wang, Jing;Bai, Helong;Zaman, Kh Ahammad Uz;Meng, Fanlei
关键词:
T. dichotomus ; chemical components; anti-tumor; antioxidant; neuro-antioxidant -
Advances of functional nucleic acids based on specific recognition:A review
作者:Liu, Beibei;Chen, Ge;Zhai, Rongqi;Liu, Guangyang;Xu, Xiaomin;Zhang, Yanguo;Li, Lingyun;Xu, Donghui;Liu, Beibei;Zhang, Jie;Abd El-Aty, A. M.;Abd El-Aty, A. M.
关键词:Functional nucleic acids; Specific recognition; Application
-
Research on prediction of energy density and power density of biomass carbon-based supercapacitors based on machine learning
作者:Lu, Xueying;Zhao, Chenxi;Tu, Huanyu;Wang, Siyu;Chen, Aihui;Zhang, Haibin
关键词:Supercapacitor; Machine learning; Biomass carbon; Energy density; Power density
-
Unveiling transfer RNA modifications of oil palm and their dynamic changes during fruit ripening
作者:Deng, Dehai;Qin, Yichao;Lin, Xiuying;Chu, Meng;Lin, Huan;Deng, Dehai;Lin, Xiuying;Chu, Meng;Lv, Daizhu
关键词:tRNA modifications; Oil palm fruit development; RNA mass spectrometry; Epitranscriptome
