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高水热稳定性氨基功能化硅胶色谱填料:制备、评价与应用

摘要第3-7页
Abstract第7-9页
Chapter 1 Literature Review第13-35页
    Introduction第13页
    1.1 Classification of HPLC第13-23页
        1.1.1 Single-mode chromatography第14-17页
        1.1.2 Mixed-mode chromatographic stationary phase第17-23页
    1.2 Retention mechanism of HPLC第23-27页
        1.2.1 Retention mechanism of single-mode chromatography第23-25页
        1.2.2 Retention mechanism of mixed-mode chromatography第25-27页
    1.3 Amino-functionalized stationary phase第27-32页
        1.3.1 Preparation methods of APS第28-29页
        1.3.2 Research status of amino-functionalized stationary phase第29-32页
    1.4 Research basis, objectives, design thoughts and contents第32-35页
Chapter 2 Experimental第35-49页
    2.1 Reagents and instruments第35-38页
        2.1.1 Reagents第35-37页
        2.1.2 Materials and instruments第37-38页
    2.2 Preparation of aminopropyl-functionalized stationary phase, APS第38-41页
        2.2.1 Preparation of APS by toluene method第38-39页
        2.2.2 Preparation of APS by chemical vapor deposition method第39页
        2.2.3 Preparation of APS by impregnation method第39-40页
        2.2.4 Characterization of APS stationary phase第40-41页
        2.2.5 Chromatographic evaluation of APS stationary phase第41页
    2.3 Preparation of ethane-bridged pre-bonded amino-functionalized stationaryphase第41-45页
        2.3.1 Preparation of ethane-bridged pre-bonded amino-functionalized(BTME-H-APS) stationary phase第41-42页
        2.3.2 BTME-H-APS preparing conditions study第42页
        2.3.3 Characterization of BTME-H-APS stationary phase第42-43页
        2.3.4 Column stability evaluation of BTME-H-APS column第43-44页
        2.3.5 Chromatographic evaluation of BTME-H-APS column第44页
        2.3.6 Applications of BTME-H-APS column第44-45页
    2.4 Preparation of Amino/Octyl group bi-ligand stationary phase第45-49页
        2.4.1 Preparation of OTS, AEAPTMS and OAEPS stationary phase第45-46页
        2.4.2 Column stability evaluation of OAEPS column第46页
        2.4.3 Chromatographic evaluation of OAEPS column第46-47页
        2.4.4 Investigation the RPLC/IEC retention behavior of OAEPS column第47-49页
Chapter 3 Preparation of Aminopropyl-Functionalized Stationary Phase第49-57页
    Introduction第49页
    3.1 Preparation of APS by impregnation method第49-52页
        3.1.1 Effect of APTMS amount第50-51页
        3.1.2 Effect of reaction time第51页
        3.1.3 Effect of Soxhlet extraction progress第51-52页
    3.2 Characterization of APS第52-53页
        3.2.1 FT-IR第52页
        3.2.2 13CNMR第52-53页
        3.2.3 Elemental analysis第53页
    3.3 Comparison of APS columns prepared by impregnation and liquid-solidmethod第53-54页
    3.4 Conclusions第54-57页
Chapter 4 Preparation of Ethane-Bridged Pre-Bonded Amino-FunctionalizedStationary Phase第57-77页
    Introduction第57-58页
    4.1 Preparation of BTME-H-APS stationary phase第58-60页
        4.1.1 The effect of BTME amount第58-59页
        4.1.2 The effect of hydrolysis time第59-60页
    4.2 Characterization of BTME-H-APS stationary phase第60-63页
        4.2.1 FT-IR第60-61页
        4.2.2 ~(13)C CPMAS NMR第61页
        4.2.3 ~(29)Si NMR第61-62页
        4.2.4 Elemental analysis第62-63页
    4.3 Column stability evaluation of BTME-H-APS column第63-66页
    4.4 Chromatographic evaluation of BTME-H-APS column第66-72页
        4.4.1 Retention properties in RPLC/HILIC mixed-mode第66-68页
        4.4.2 Retention properties in NPLC mode第68-69页
        4.4.3 Retention properties in IEC mode第69-72页
    4.5 Applications of BTME-H-APS column第72-74页
        4.5.1 Separation of carbohydrates in honey第72-73页
        4.5.2 Separation of alkaloids第73-74页
    4.6 Conclusions第74-77页
Chapter 5 Preparation of Amino/Octyl Group Bi-Ligand Stationary Phase第77-101页
    Introduction第77-78页
    5.1 Preparation and characterization of the stationary phases第78-79页
    5.2 Stability evaluation of OAEPS column第79-81页
    5.3 Chromatographic evaluation of OAEPS column第81-85页
        5.3.1 Retention properties in RPLC/HILIC mixed-mode第81-82页
        5.3.2 Retention properties in RPLC mode第82-84页
        5.3.3 Retention properties in IEC mode第84-85页
    5.4 RPLC/IEX chromatographic retention behavior of organic acids on OAEPScolumn第85-99页
        5.4.1 Retention of the organic acids on the OAEPS column第86-87页
        5.4.2 Retention of the organic acids on the OEAPS columns第87-97页
        5.4.3 Relative contributions of reversed-phase, ion-exchange andreversed-phase/ion-exchange cooperative retention to the total retention第97-99页
    5.5 Conclusions第99-101页
Chapter 6 Conclusions and Outlooks第101-103页
    6.1 Conclusions第101-102页
    6.2 Outlooks第102-103页
References第103-112页
Notes on publications and participation in scientific research第112-113页
Acknowledgements第113页

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