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Capillary electrophoresis

Capillary electrophoresis. 資料處理 系統. 毛細管. 毛細管 I.D. 25-100 m m. 偵測器. 注入端. 偵檢端. 白金電極. 電解質緩衝溶液. 電解質緩衝溶液. 高電壓 (KV). 毛細管電泳 (Capillary Electrophoresis-CE) 儀器結構簡圖. Electrophoretic migration. (1). Z i : charge # of component i e 0 : elemental charge [ 1.602 ×10 -19 C ]

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Capillary electrophoresis

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  1. Capillary electrophoresis

  2. 資料處理 系統 毛細管 毛細管 I.D. 25-100 mm 偵測器 注入端 偵檢端 白金電極 電解質緩衝溶液 電解質緩衝溶液 高電壓(KV) 毛細管電泳(Capillary Electrophoresis-CE)儀器結構簡圖

  3. Electrophoretic migration (1) Zi:charge # of component i e0:elemental charge [ 1.602×10-19 C ] E=V/L ( V:applied voltage;L:length ) (2) ri :stokes radius of i component η:viscosity of the elution [Pa · S] Vi0:migration velocity of i component

  4. (3) (4) μi0:electrophoretic mobility μi0和(q, η, ri)有關 Electroosmotic flow (EOF) (5) μeo:electroosmotic mobility (cm2/Vs) (6) ξ:zeta potential (V) 和pH值, ionic strength有關 η:viscosity of double layer ~ η (bulk)

  5. m = er e0x / h

  6. + + n - - EOF + n Net - 毛細管電泳的向量圖

  7. Effective Mobility and Apparent Mobility

  8. (7) (8) (9) if no EOF (10)

  9. Efficiency (11) (12) (13) (14) (15)

  10. (16) (17) (18) 對某一analyte , μ和D 是constant V固定 D愈小 N愈大 對大分子分離有利

  11. Resolution (19) (20) :平均速度 :平均距離 (cm) (21) (22)

  12. (23) EOF存在 (24) 代入(24) (25) (26) EOF和electrophoretic反方向則μeo↑ Rs↑ Best Resolution 分離時間很長

  13. Reversal of EOF Using a Cationic Surfactant

  14. (22)式Rs=column eff. × selectivity factor selectivity →separation factorαin chromatography • Buffer composition • Complex formation • 1. Borate complexation 2. ion pairing • 3. inclusion complex 4. metal complexation • Organic modifier • After the polarity & viscosity of the mobile phase EOF & • electrophoretic mobility changed • 2. 增加solubility of analyte • 3. reduce zeta potential

  15. Micellar Electrokinetic Chromatography k’:capacity factor nmc:no. of analyte molecules incorporated into the micelle naq :no. of analyte molecules in aqueous phase (1) fraction of analyte in aqueous phase (2) fraction of analyte in micelle (3) (4) migration velocity (Vs): (5) tR, t0, tmc:migration time of analyte, aqueous phase, and micelle (6) (7)

  16. (micelle停在capillary) << (5)(6)(7)代入(4) (8) (9) t0=∞ EOF is completely suppressed, in MEKC EOF is not essential. 這時分析物向正(+)移動,k’值愈大移動速率愈快 (10)

  17. Resolution (11) tmc→∞ 兩式相等tmc→∞固定相

  18. large capacity better resolution lead to Effect of the capacity factor (12) t0/tmc=0 tmc=∞ conventional chromatography in MEKC large k’ unfavor (11)式最後一項→0 optimum k’和t0/tmc有關 將(12)式微分 (13)

  19. capacity factor :specific volume of micelle (14) k:distribution coefficient Vmc,Vaq:volumes of micelle and aqueous phases (15) (16) when (Vmc<<Vaq) << 1 (17) k’ vs conc. of surfactant Csf linear if k is constant 可調整Csf來調整k‘ RP-HPLC調整phase ratio對k‘改變小

  20. hydrophilic (ionic group) hydrophobic Effect of EOF on the resolution > > 愈小 Rs愈大 (from 11式) < 1 separation factor ← micelle (stationary phase in RP-HPLC) aqueous (mobile phase in RP-HPLC) type of surfactants:

  21. Separation Mode: Capillary Gel Electrophoresis (CGE)

  22. CGE: Protein Size Separation Using SDS LinearPolymer Solutions

  23. Separation Mode: Capillary Isoelectric Focusing (CIEF)

  24. Detection: Direct UV Detection

  25. Detection: Indirect UV Detection

  26. Peak profile with long injection time (A) No stacking; (B) stacking.

  27. Injection time:200, 500, 700, 900 sec with SRMM stacking

  28. What is Capillary electrochromatography (CEC) ? CEC = CE + HPLC Electroosmotic flow(EOF) + HPLC stationary CE separation efficiency + HPLC selectivity P.S. CE: Capillary electrophoresis HPLC: High performance liquid chromatography

  29. Driving force of CEC and HPLC EOF VEOF = mE m = er e0x / h E:electrical field strength x:zeta potential Pressure-driven flow <V>= dp:particle diameter

  30. Cross-section view of different types of CEC column a.LC stationary phase- packed column b.Open-tubular column c. Countinuous-bed or monolithic column

  31. Side view of open-tubular CEC column Capillary Functional group coated surface

  32. Advantages and disadvantagesof open-tubular column Advantages: No bubble formation, easy to operate Disadvantages: 1.Low phase ratio 2. On-column UV detection is difficult – optical path-length is short and difficult to align 3. The synthesis of matrix with homogeneous is not easy

  33. What is Sol-Gel? Sol-Gelthat is made from solution-gelation process: Hydrolysis of TMOS under acidic or basic condition yield SiO2 in the form of glass-like material 1.Hydrolysis: 2.Condensation: 3.Polymerization:

  34. Preparation of PTMAFS Sol-Gel DI.water180 μl +0.1M HCl 15 μl +500μl TMOS 冰震30分鐘 冰埋5小時 加入TMSPTMA 340 μl 震盪30秒 PTMAFS sol-gel

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