La Chrom HPLC D-7000: Unterschied zwischen den Versionen

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(123 dazwischenliegende Versionen desselben Benutzers werden nicht angezeigt)
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|style="width:300px;text-align:left; vertical-align:top;"| [[Solvent bottles|Solvent bottles]]
|style="width:300px;text-align:left; vertical-align:top;"| [[Solvent bottles|Solvent bottles]]
|style="width:250px;text-align:left; vertical-align:top;"|  
|style="width:250px;text-align:left; vertical-align:top;"|  
|[[File:ana_HPLC_AgilentLM.png|top|center|thumb|140px|solvent bottles]]
|[[File:Lösungsmittel.png|top|center|thumb|140px|solvent bottles]]
|style="width:200px;text-align:left; vertical-align:top;"|  
|style="width:200px;text-align:left; vertical-align:top;"|  
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|style="text-align:left; vertical-align:top;"| L-7200
|style="text-align:left; vertical-align:top;"| L-7200
|style="text-align:right; vertical-align:top;"|[[File:Autosampler L7200.png|top|center|thumb|140px|Autosampler]]
|style="text-align:right; vertical-align:top;"|[[File:Autosampler L7200.png|top|center|thumb|140px|Autosampler]]
|style="text-align:left; vertical-align:top;"| [[:Datei:.pdf|Autosampler;]]
|style="text-align:left; vertical-align:top;"| [[:Datei:L 7200 Autosampler pw.pdf|Autosampler]]
|-
|valign=top| [[Interface|Interface]]
|style="text-align:left; vertical-align:top;"| D-7000
|style="text-align:right; vertical-align:top;"|[[File:Interface.png|top|center|thumb|140px|Interface]]
|style="text-align:left; vertical-align:top;"| [[:Datei:.pdf|Interface]]
|-
|-
|valign=top| [[DAD-Detector |DAD-Detector]]
|valign=top| [[DAD-Detector |DAD-Detector]]
|style="text-align:left; vertical-align:top;"| L-7455
|style="text-align:left; vertical-align:top;"| L-7455
|style="text-align:right; vertical-align:top;"| [[File:DAD L7455.png|top|center|thumb|140px|DAD-Detector]]
|style="text-align:right; vertical-align:top;"| [[File:DAD L7455.png|top|center|thumb|140px|DAD-Detector]]
|style="text-align:left; vertical-align:top;"| [[:Datei:.pdf|DAD-Detector]]
|style="text-align:left; vertical-align:top;"| [[:Datei:L 7455 DAD pw.pdf|DAD-Detector]]
|-
|-
|valign=top| [[RI-Detector |RI-Detector]]
|valign=top| [[RI-Detector |RI-Detector]]
|style="text-align:left; vertical-align:top;"| L-7490
|style="text-align:left; vertical-align:top;"| L-7490
|style="text-align:right; vertical-align:top;"| [[File: .png |top|center|thumb|140px|RI-Detector]]
|style="text-align:right; vertical-align:top;"| [[File:RI L 7490.png|top|center|thumb|140px|RI-Detector]]
|style="text-align:left; vertical-align:top;"| [[:Datei:.pdf|RI-Detector]]
|style="text-align:left; vertical-align:top;"| [[:Datei:L 7490 RI-Detektor pw.pdf|RI-Detector]]
|-
|-
|valign=top| [[Column Switcher |Column Switcher]]
|valign=top| [[Column Switcher |Column Switcher]]
|style="text-align:left; vertical-align:top;"| BESTA-High-Pressure-Motorvalve
|style="text-align:left; vertical-align:top;"| BESTA-High-Pressure-Motorvalve
|style="text-align:right; vertical-align:top;"| [[File:.jpg|top|center|thumb|140px|Column Switcher]]
|style="text-align:right; vertical-align:top;"| [[File:Besta Ventil.png|top|center|thumb|140px|Column Switcher]]
|style="text-align:left; vertical-align:top;"|[[:Datei:BESTA_PW.pdf|Column Switcher]]
|style="text-align:left; vertical-align:top;"|[[:Datei:BESTA_PW.pdf|Column Switcher]]
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|valign=top| Solvent Waste
|valign=top| Solvent Waste
|style="text-align:left; vertical-align:top;"|  
|style="text-align:left; vertical-align:top;"|  
|style="text-align:right; vertical-align:top;"| [[File:.png|top|center|thumb|100px|Solvent Waste]]
|style="text-align:right; vertical-align:top;"| [[File:Waste.png|top|center|thumb|100px|Solvent Waste]]
|style="text-align:right; vertical-align:top;"|
|style="text-align:right; vertical-align:top;"|
|-
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|valign=top| Computer (Windows 2000)
|valign=top| Computer (Windows 2000)
|style="text-align:left; vertical-align:top;"|  
|style="text-align:left; vertical-align:top;"|  
|style="text-align:right; vertical-align:top;"| [[File:.png|top|center|thumb|140px|Computer]]
|style="text-align:right; vertical-align:top;"| [[File:Computer L.png|top|center|thumb|140px|Computer]]
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== Vorbereitung ==
== Preparations ==
===Column===
===Column===
Vor der Inbetriebnahme der HPLC muss die gewünschte Säule eingebaut werden falls diese nicht bereits eingebaut ist. Es ist darauf zu achten, dass die verwendete Säule den gewünschten Bedingungen stand hält (pH, Druck, Lösungsmittel etc.).  Bei Einbau ist darauf zu achten, dass die Anschlüsse alle dicht sind. Nach dem Einbau der Säule, kann diese wenn gewünscht im [[Säulenofen |Säulenofen]] temperiert werden.
The HPLC is connected to a column switcher, which gives you the opportunity to choose between five different columns. If the column you want to use isn´t included you have to change one of the columns. The method you want to use should be compatible with the conditions the column can stand (pH, pressure, solvent etc.).  After the installation you should take care, that all connections are tight. All columns can be tempered in the [[Column Oven|column oven]].
 
===Solvent===
 
* Before starting a measurement, the solvent level should be checked and if necessary refilled. Don´t forget to check the Autosampler solvent bottle.
*All used solvents have to be degassed and be compatible with the used column. Especially the RI-Detector won´t work with not proper degassed solvents.
* It is required, that all solvents have HPLC quality and are particle free. Small particles can permanently block the capillaries and valves. Avoid the use of the following steel-corrosive solvents:
#Solutions of alkali halides and their respective acids (for example, lithium iodide, potassium chloride, and so on).
#High concentrations of inorganic acids like sulfuric acid, especially at higher temperatures (replace, if your chromatography method allows, by phosphoric acid or phosphate buffer which are less corrosive against stainless steel).
#Chromatographic grade ethers, which can contain peroxides (for example, THF, dioxane, diisopropylether) such ethers should be filtered through dry aluminium oxide which adsorbs the peroxides.
#Halogenated solvents or mixtures, which form radicals and/or acids, for example:
::2CHCl<sub>3</sub> + O<sub>2</sub> → 2COCl<sub>2</sub> + 2HCl
::This reaction, in which stainless steel probably acts as a catalyst, occurs quickly with dried chloroform if the drying process removes the stabilizing alcohol.
 
<u>Prevent Blocking of Solvent Filters</u>
 
Contaminated solvents or algae growth in the solvent bottle will reduce the
lifetime of the solvent filter and will influence the performance of the pump.
This is especially true for aqueous solvents or phosphate buffers (pH 4 to 7). The following suggestions will prolong lifetime of the solvent filter and will maintain the performance of the pump:
* Use sterile, if possible amber, solvent bottles to slow down algae growth.
* Filter solvents through filters or membranes that remove algae.
* Exchange solvents every two days or refilter.
* If the application permits add 0.0001–0.001 M sodium azide or 0.1 % TFA to the solvent.
* Avoid exposure of the solvent bottles to direct sunlight.
* When using buffer solutions, flush the system with water before switching it off.
NOTE Never use the system without solvent filter installed.
 
===Waste===
Before the use of the HPLC, the waste container should be checked and emptied if necessary.
 
===Sample===
The sample preparation is an important part of the HPLC analysis. It is important, that the sample is dissolved and filtered before the measurement. This prevents the contamination of the column and the precipitation of the sample on the column bed. The sample has to be dissolved at any time and shouldn´t precipitated from the eluent. Therefor it is not thoughtful to dissolve the sample in pure methanol or acetonitrile, if you are working with an RP-phase column. The risk of sample precipitation during the measurement is to high. Sample precipitation causes a rising of the back pressure and clogging of the column, which leads to an irreversible poor resolution.
 
==== What is the right solvent mixture to dissolve many sample? ====
 
This question can´t be answered easily and depends on the sample. The most important thing is, that the sample is in solution during the whole measurement. How can you find the right solvent mixture? One way is to do this in practice is the following: At first take 1 mg of your sample and dissolve it in 500 µL HPLC Methanol respectively ACN. Is the solution still clear you can successively add water in 100 µL steps. After each addition check if the solution is still clear. If the solution is clear go on with addition until you reach a total volume of 1000 µL. If it becomes cloudy stop the addition of water and add 100 µL of HPLC Methanol respectively ACN. The precipitated sample should dissolve again. Then calculate the solvent ratio. This is the maximum solvent ratio you can use for the eluent without the risk of precipitation of the sample on the column bed. Solvent mixtures with higher amount of water would lead to precipitation. To get rid of remaining particles, the sample solution is [[Probenfiltration mit Spritzenfilter| filtered]]  with a syringe filter.
== Start ==
Bevor you start the HPLC it is important to make preparations (see previous paragraph).
{| class="wikitable"
 
! Explanation !! Picture
 
|- style="vertical-align:top;"
|style="width:400px;text-align:left; vertical-align:top;"|If you want to start the HPLC you have to switch on the different parts of the HPLC-assembly.
# [[Quaternary Pump|Pump]]
# [[Interface/ Interface]]
# [[Autosampler/ Injector|Autosampler/ Injector]]
# [[RI-Detector|RI-Detector]]
# [[DAD-Detector|DAD-Detector]]
# [[Column Oven|Column Oven]]
# [[Column Switcher|Column Switcher]]
# Computer (if it is not already running)
|style="width:525px;text-align:left; vertical-align:top;"| [[File:L HPLC Nummeriert.png|top|center|thumb|500px|Startreihenfolge]]
|-
|valign=top| Open the programm "''D 7000- HSM''" by double clicking the shortcut with the left mouse button.
|style="text-align:left; vertical-align:top;"| [[File:L1.png|top|center|thumb|500px|Desktop]] [[File:L3.png|top|center|thumb|500px|Programm]] [[File:L4.png|top|center|thumb|500px|Programm]]
|-
|valign=top| After the programm has opened click the white "'' i ''" '''(1)''' on blue ground. A window opens and shows you the hardware status. For connecting the computer with the HPLC click on " ''Initialize''" '''(2)'''. The status changes to "''Downloading''" '''(3)'''. After a while the HPLC and computer are connected and the status changes to "''Idle''" '''(3a)'''. All connected parts are shown on the left '''(4)'''. The connection then can be confirmed with "''OK''" '''(5)'''.
|style="text-align:left; vertical-align:top;"| [[File:L5.png|top|center|thumb|500px|Start]][[File:L6.png|top|center|thumb|500px|Initializing]][[File:L7.png|top|center|thumb|500px|Initializing]][[File:L8.png|top|center|thumb|500px|Connected]]
|-
|valign=top| After the HPLC is connected to the computer you have to purge the system. To purge it manually, is the easiest way to do it.
 
*Manually set the pump (Manual set [[File:Manual set.png|30px]]; 2 [[File:Zahl 2.png |30px]]; 5 [[File:Zahl 5.png |30px]]; Enter [[File:Enter.png|30px]]; 2 [[File:Zahl 2.png |30px]]; 5 [[File:Zahl 5.png |30px]]; Enter [[File:Enter.png|30px]]; 2 [[File:Zahl 2.png |30px]]; 5 [[File:Zahl 5.png |30px]]; Enter [[File:Enter.png|30px]]; Enter [[File:Enter.png|30px]]; Enter [[File:Enter.png|30px]]; Enter [[File:Enter.png|30px]])
*Turn on the Pump (Pump ON/OFF [[File:ON OFF.png|30px]]);
*Open purge valve '''(1)''';
*Start purging (Purge[[File:2 Purge.png|30px]]);
*Purge the system for about 10 minuntes;
*Stop purging (Purge[[File:2 Purge.png|30px]]);
*Close purge valve '''(2)''';
*Turn the pump off(Pump ON/OFF [[File:ON OFF.png|30px]]).
 
|style="text-align:left; vertical-align:top;"| [[File:Purge auf zu.png|top|center|thumb|500px|Purge valve]]
|-
|style="width:400px; text-align:left; vertical-align:top| When you are finished purging the system you have to choose the applications of a certain operator. In our case "''Allgemeinheit Lindhorst''" ('''1, 2, 3''').
|style="width:525px;text-align:left; vertical-align:top;"| [[File:L9.png|top|center|thumb|500px|Initializing]][[File:L10.png|top|center|thumb|500px|Initializing]]
|-
 
|}
 
== Method creating/editing ==
To be able to separate substances with the HPLC it is nesassary to setup a method. The easiest way to creat a method is by editing an existing method.
 
{| class="wikitable"
 
! Explanation !! Picture
|-
|style="width:400px;text-align:left; vertical-align:top;"| Click on ''"Method Setup"'' and choose a method you want to edit '''(1,2,3,4)'''
|style="width:525px;text-align:left; vertical-align:top;"| [[File:L13.png|top|center|thumb|500px|load Method]] [[File:L14.png|top|center|thumb|500px|load Method]]
 
|-
|valign=top| When the window opens, the Method Information Icon is selected[[File:Method Information.png|30px]] and the window shows the general Method information('''1'''). These infomation can be changed to the desired ones. The upper part of the window shows different Icons ('''2'''). Each Icon leads you to a different method parameters, which you can change to the wished ones.
 
'''Module Setup Menu'''
 
*[[File:Method Information.png|30px]] [[Method Information|'''Method Information''']] Use this command if you want to review or modify general Method information such as the Method title, Method name, or solvent names.
*[[File:Method Configuration.png|30px]][[Method Configuration|'''Method Configuration''']] Use this command if you want to review or modify Method Configuration parameters.
*[[File:Pump Setup.png|30px]][[Pump Setup|'''Pump Setup''']] Use this command if you want to review or modify pump parameters or the solvent table.
*[[File:Autosampler_Setup.png|30px]] [[Autosampler Setup|'''Autosampler Setup''']] Use this command if you want to review or modify autosampler parameters.
*[[File:Channel_1-DAD_Setup.png|30px]][[File:Channel_2-RI_Setup.png|30px]] [[Channel 1 or 2 Detector Setup|'''Channel 1 or 2 Detector Setup''']] Use these commands if you want to review or modify the parameters of the detectors on channel 1 or channel 2.
*[[File:Event Signal.png|30px]] [[Event Signal Setup|'''Event Signal Setup''']] Use this command to initiate the review or modification of Event Signal parameters.
*[[File:Time Summary.png|30px]] [[Time Summary|'''Time Summary''']] Use this command to display the pump (solvent) table and event table graphically.
 
'''Data Process Setup Menu'''
 
*[[File:Channel 1.png|30px]][[File:Channel 2.png|30px]] [[Channel 1 or Channel 2|'''Channel 1 or Channel 2''']] Use these commands to select a channel (1 or 2) for the subsequent review or modification of data processing parameters.
*[[File:Calculation Method.png|30px]] [[Calculation Method|'''Calculation Method''']] Use this command to review or modify the calculation method.
*[[File:Component Table.png|30px]] [[Component Table|'''Component Table''']] Use this command to review or modify the Component Table.
*[[File:Integration Time Table.png|30px]] [[Integration Time Table|'''Integration Time Table''']] Use this command to review or modify the Integration Time Table.
*[[File:Data_Processing.png|30px]] [[DAD Data Processing|'''DAD Data Processing''']] Use this command to review or modify DAD data processing parameters.
*[[File:Chromatogram Display Format.png|30px]] [[Chromatogram Display Format|'''Chromatogram Display Format''']] Use this command to review or modify parameters.
*[[File:DAD_Display_Format.png|30px]] [[DAD Display Format|'''DAD Display Format''']]Use this command to review or modify DAD display format parameters.
*[[File:Confiedence Report.png|30px]] [[Confidence Report|'''Confidence Report''']] Use this command to review or modify confidence report parameters.
*[[File:Report Format.png|30px]] [[Report Format|'''Report Format''']] Use this command to review or modify report format parameters.
*[[File:Update Format.png|30px]] [[Update Method|'''Update Method''']] Use this command to update all parameters of current Method to all other open windows.
|style="text-align:left; vertical-align:top;"| [[File:L15_2.png|top|center|thumb|500px|Methode laden]]
|-
|-
|valign=top| If you don´t want to go to much into Details editing the method. Here are the most relevant parameters marked, that should be adapted.
*[[File:Method Information.png|30px]] [[Method Information|'''Method Information''']]
 
|style="text-align:left; vertical-align:top;"| [[File:L16_S.png|top|center|thumb|500px|]]
|-
|-
|-
|valign=top|
*[[File:Method Configuration.png|30px]] [[Method Configuration|'''Method Configuration''']]
|style="text-align:left; vertical-align:top;"| [[File:L17_S.png|top|center|thumb|500px|]]
|-
|-
|valign=top|
*[[File:Pump Setup.png|30px]] [[Pump Setup|'''Pump Setup''']]
|style="text-align:left; vertical-align:top;"| [[File:L18_S.png|top|center|thumb|500px|]]
|-
|-
|valign=top|
*[[File:Channel_1-DAD_Setup.png|30px]][[File:Channel_2-RI_Setup.png|30px]] [[Channel 1 or 2 Detector Setup|'''Channel 1 or 2 Detector Setup''']]
|style="text-align:left; vertical-align:top;"| [[File:L20_S.png|top|center|thumb|500px|]]
|-
 
|valign=top|
*[[File:DAD_Display_Format.png|30px]] [[DAD Display Format|'''DAD Display Format''']]
|style="text-align:left; vertical-align:top;"| [[File:L29_S.png|top|center|thumb|500px|]]
|-
|-
|valign=top|
After you have changed all parameters to your own desires, you have to save the method. Click File ('''1''') and Save Method As ('''2'''). In the opening Window you have to give the method a name ('''3'''), assign a Aplikation to it ('''4''') and press OK ('''5''').
|style="text-align:left; vertical-align:top;"|[[File:L33.png|top|center|thumb|500px| Saving Method]][[File:L34.png|top|center|thumb|500px| Saving Method]]
|-
|-
|}
 
== Measuring ==
After purging the system and creating a method, the column you want to use should be chosen and flushed for about ~30 min with the desired solvent mixture. Columns don´t like harsh polarity changes, therefore a slow change of the solvent polarity to the desired solvent mixture is preferred. After conditioning the column, the prepared sample has to be put into the sample table of the autosampler. Then the position and the related method are listed in the sequence table.
 
===Creating a sequence table===
 
{| class="wikitable"
 
 
! Explanation !! Picture
 
|- style="vertical-align:top;"
|style="width:400px;text-align:; vertical-align:top;"|to start creating a new Sample Table click '''(1, 2, 3)'''.
 
|style="width:525px;text-align:left; vertical-align:top;"| [[File:S14.png|top|center|thumb|500px|Probentisch]] [[File:S15.png|top|center|thumb|500px|Sequence table]]
 
|- style="vertical-align:top;"
|style="width:400px;text-align:left; vertical-align:top;"|Change the sample table parameters as desired and switch to the Sample table '''(1)'''.
 
|style="width:525px;text-align:left; vertical-align:top;"| [[File:S16.png|top|center|thumb|500px|Sample table parameter]]
 
|- style="vertical-align:top;"
|style="width:400px;text-align:; vertical-align:top;"| Fill in the Sample table.
 
|style="width:525px;text-align:left; vertical-align:top;"| [[File:S17.png|top|center|thumb|500px|Sample Table]]


===Lösungsmittel===
|- style="vertical-align:top;"
|style="width:400px;text-align:; vertical-align:top;"|Save Sample Table.'''(1, 2, 3)'''


* Vor jeder Messung ist es nötig den Füllstand der Lösungsmittelflaschen zu überprüfen und nach dem Auffüllen im Programm  [[ Füllstand einstellen|einzustellen]].
|style="width:525px;text-align:left; vertical-align:top;"| [[File:S18.png|top|center|thumb|500px|Saving Sample Table]]
* Es ist darauf zu achten, dass nur Lösungsmittel entsprechender Qualität verwendet werden. In ihnen dürfen sich keine Partikel befinden. Diese würden die Kapillaren und Ventile verstopfen. Korrosive Lösungen (z.B. Alkalilösungen, Salzlösungen und Halogensäuren) dürfen nicht verwendet werden.  
|}
* Die Lösungsmittel müssen mit der verwendeten Säule kompatibel sein, auch in Bezug auf pH-Wert.
 
* Bei der Verwendung von Puffer-Lösungen müssen diese zuvor [[Lösungsmittel filtrieren|filtriert]] werden.
===Start Measurment ===
* Um bakterielles Wachstum zu unterbinden ist der Zusatz von 0,1 % TFA zum Lösungsmittel sinnvoll, ansonsten muss das Wasser bzw. Puffer alle 2 Tage getauscht werden.
{| class="wikitable"
 
 
! Explanation !! Picture
|- style="vertical-align:top;"
|style="width:400px;text-align:; vertical-align:top;"|Turn on the pump. '''(1,2)'''.
 
|style="width:525px;text-align:left; vertical-align:top;"| [[File:s8.png|top|center|thumb|500px|]] [[File:S9.png|top|center|thumb|500px|]]
 
|- style="vertical-align:top;"
|style="width:400px;text-align:; vertical-align:top;"|Open the sample table to aquire data '''(1,2)'''.
 
|style="width:525px;text-align:left; vertical-align:top;"| [[File:s5.png|top|center|thumb|500px|Start]] [[File:S6.png|top|center|thumb|500px|open sample table]]
 
|- style="vertical-align:top;"
|style="width:400px;text-align:; vertical-align:top;"|Start the measurment '''(1)'''.Be patient the system is not so fast !!!!!!!!!!
 
|style="width:525px;text-align:left; vertical-align:top;"| [[File:s19.png|top|center|thumb|500px|Start Measurment]]
|-
|}
 
===Flushing===
 
After the last measurement the column has to be flushed and stored at a certain solvent mixture. The column is normally flushed with a solvent mixture, which has a higher organic content then the solvent used during the measurement.
 
{| class="wikitable"
 
! Explanation !! Picture
|- style="vertical-align:top;"
|style="width:400px;text-align:; vertical-align:top;"|The easiest way to flush the column is manually.
*Manually set the pump (Manual set [[File:Manual set.png|30px]]; 0 [[File:Zahl 0.png |30px]]; 5 [[File:Zahl 5.png |30px]]; Enter [[File:Enter.png|30px]]; 4 [[File:Zahl4.png |30px]]; 5 [[File:Zahl 5.png |30px]]; Enter [[File:Enter.png|30px]]; 0 [[File:Zahl 0.png |30px]]; 5 [[File:Zahl 5.png |30px]]; Enter [[File:Enter.png|30px]]; Enter [[File:Enter.png|30px]]; Enter [[File:Enter.png|30px]]; Enter [[File:Enter.png|30px]])
*Turn on the Pump (Pump ON/OFF [[File:ON OFF.png|30px]]);
[[File:spüleinstellung.png|top|center|thumb|400px|''Flushing'']]
Let it run for about 30 min.
*Turn the pump off(Pump ON/OFF [[File:ON OFF.png|30px]]).
 
*Change the pump manually to the storange solvent mixture (this depend on the column);
*Turn the pump back on (Pump ON/OFF [[File:ON OFF.png|30px]])
Let the system run for additional 10 min
*Switch of the pump (Pump ON/OFF [[File:ON OFF.png|30px]]).
 
|style="width:525px;text-align:left; vertical-align:top;"| [[File:Pumpe L 7100.png|top|center|thumb|500px|Pumpe]] [[File:Tastatur.png|top|center|thumb|500px|key panel]]
 
|}
 
===Shut Down===
{| class="wikitable"
 
! Explanation !! Picture
|- style="vertical-align:top;"
 
|style="width:400px;text-align:; vertical-align:top;"|Turn the pump off.
 
|style="width:525px;text-align:left; vertical-align:top;"|[[File:Shut5.png|top|center|thumb|500px|Pumpmenu]][[File:Shut4.png|top|center|thumb|500px|Press OK]]
 
 
|- style="vertical-align:top;"
|style="width:400px;text-align:; vertical-align:top;"| Dissconect HPLC.
|style="width:525px;text-align:left; vertical-align:top;"|[[File:Shut1.png|top|center|thumb|500px|]] [[File:Shut2.png|top|center|thumb|500px|]] [[File:Shut3.png|top|center|thumb|500px|]]
 
|- style="vertical-align:top;"
|style="width:400px;text-align:; vertical-align:top;"| Switch off the HPLC.
|style="width:525px;text-align:left; vertical-align:top;"|[[File:L HPLC Nummeriert.png|top|center|thumb|500px|]]
 
|}


===Abfall===
== Auswerten ==
Alle Abfallbehälter sollten vor Messbeginn geprüft werden und gegebenenfalls geleert oder ausgetauscht werden (zwei Stück).


===Proben===
Die Auswertung kann entweder an Hand des ausgedruckten Reports oder an Hand eines im offline Programm von Chemstation modifizierten Reports erfolgen. Von Interesse sind hierbei insbesondere die Retentionszeiten und Integrale der einzelnen Signale, auch das UV-Spektrum der einzelnen Signale gibt wichtige Hinweise.
Die Probenvorbereitung ist ein wichtiger Teil der HPLC-Analyse. Um Kontamination der Säule das Ausfallen der Probe auf der Säule zu vermeiden, ist es wichtig die Probe in einem entsprechenden Lösungsmittelverhältnis zu lösen und zu [[Probenfiltration mit Spritzenfilter| filtrieren]]. Die Probe sollte zu jeder Zeit gelöst sein und dürfen nicht im Laufmittelgemisch ausfallen. So ist es '''nicht''' sinnvoll bei RP-Phase die Probe in reinem Methanol oder ACN zu lösen, da die Gefahr groß ist, dass die Probe bei einem polareren Laufmittelgemisch auf der Säule ausfällt und nicht über die Säule transportiert wird. Das Ausfallen von Proben auf der Säule verursacht zum einen eine Steigerung des Rückdrucks bis hin zur Verstopfung der Säule, zum anderen die Bildung von Kanälen im Säulenmaterial, welches die Trennleistung verschlechtert.


====In welchem Lösungsmittelgemisch soll ich nun meine Probe lösen?====
== Abschließende Hinweise ==


Diese Frage kann nicht pauschal beantwortet werden. Es ist wichtig das sie dauerhaft in Lösung ist. Wie kann man dies praktisch machen? Zunächst wiegt man z.B. etwa 1 mg seiner Probe ab und versucht dieses in 500 µL reinem Methanol bzw. ACN zu lösen. Ist dies möglich (klare Lösung) kann in 100 µL Schritten Wasser zugegeben werden, und gleichzeitig beobachtet werden ob etwas ausfällt (Lösung sich eintrübt). Hat man insgesamt 500 µL zu gegeben und die Lösung ist noch klar kann man diese mit einem Spritzenfilter in ein Vial [[Probenfiltration mit Spritzenfilter| filtrieren]]. Man hat nun eine Probenlösung mit einem Lösungsmittelverhältnis von 50:50 (Methanol/ACN:Wasser) und kann jetzt ohne Gefahr, dass die Probe ausfällt, alle Laufmittelmischungsverhältnisse zwischen 100%  Methanol/ACN und 50:50 Methanol/ACN:Wasser verwendet. Will man für die Trennung ein Laufmittelmischungsverhältnis verwenden, welches einen höheren Wasseranteil hat muss zuvor eine anderes Probenlösungsmittelverhältnis gewählt werden.
Vor Verwendung der HPLC ist es sinnvoll seine Zielsetzung klar zu definieren. Es bietet sich auch an für eine gute Dokumentation bei jeder Messungen ein [[:File:HPLC.pdf|Laufzettel]] zu verwenden, in dem alle Parameter der Messung vermerkt sind um eine Reproduzierbarkeit zu gewährleisten. Ein [[:File:HPLC.pdf|Vordruck]] kann hier oder im Desktopbereich des HPLC-Computers gefunden werden und bei Bedarf ausgedruckt werden.
Fällt während der Zugabe die Probe aus so verringert sich der Laufmittelmischungsverhältnis-Bereich entsprechend.

Aktuelle Version vom 7. September 2018, 11:31 Uhr

!!!Use the operator book!!! DO NOT FORGET!!!!

Everybody who is using the HPLC should enter his name, the uesed colum, the solvent mixture and the back pressure of the system in the user book.

Assembly

A HPLC consists of different parts. The La Chrom HPLC D-7000 in room 118 is made up of the folowing modules

La Chrom HPLC analytisch
Module Product Number Picture Manual
Solvent bottles
solvent bottles
Pump L7100
Quaternary Pump
Quaternary Pump
Autosampler/ Injector L-7200
Autosampler
Autosampler
Interface D-7000
Interface
Interface
DAD-Detector L-7455
DAD-Detector
DAD-Detector
RI-Detector L-7490
RI-Detector
RI-Detector
Column Switcher BESTA-High-Pressure-Motorvalve
Column Switcher
Column Switcher
Column Oven L-7350
Column Oven
Column Oven
Solvent Waste
Solvent Waste
Computer (Windows 2000)
Computer

Preparations

Column

The HPLC is connected to a column switcher, which gives you the opportunity to choose between five different columns. If the column you want to use isn´t included you have to change one of the columns. The method you want to use should be compatible with the conditions the column can stand (pH, pressure, solvent etc.). After the installation you should take care, that all connections are tight. All columns can be tempered in the column oven.

Solvent

* Before starting a measurement, the solvent level should be checked and if necessary refilled. Don´t forget to check the Autosampler solvent bottle. *All used solvents have to be degassed and be compatible with the used column. Especially the RI-Detector won´t work with not proper degassed solvents. * It is required, that all solvents have HPLC quality and are particle free. Small particles can permanently block the capillaries and valves. Avoid the use of the following steel-corrosive solvents: #Solutions of alkali halides and their respective acids (for example, lithium iodide, potassium chloride, and so on). #High concentrations of inorganic acids like sulfuric acid, especially at higher temperatures (replace, if your chromatography method allows, by phosphoric acid or phosphate buffer which are less corrosive against stainless steel). #Chromatographic grade ethers, which can contain peroxides (for example, THF, dioxane, diisopropylether) such ethers should be filtered through dry aluminium oxide which adsorbs the peroxides. #Halogenated solvents or mixtures, which form radicals and/or acids, for example: ::2CHCl3 + O2 → 2COCl2 + 2HCl ::This reaction, in which stainless steel probably acts as a catalyst, occurs quickly with dried chloroform if the drying process removes the stabilizing alcohol. Prevent Blocking of Solvent Filters Contaminated solvents or algae growth in the solvent bottle will reduce the lifetime of the solvent filter and will influence the performance of the pump. This is especially true for aqueous solvents or phosphate buffers (pH 4 to 7). The following suggestions will prolong lifetime of the solvent filter and will maintain the performance of the pump: * Use sterile, if possible amber, solvent bottles to slow down algae growth. * Filter solvents through filters or membranes that remove algae. * Exchange solvents every two days or refilter. * If the application permits add 0.0001–0.001 M sodium azide or 0.1 % TFA to the solvent. * Avoid exposure of the solvent bottles to direct sunlight. * When using buffer solutions, flush the system with water before switching it off. NOTE Never use the system without solvent filter installed.

Waste

Before the use of the HPLC, the waste container should be checked and emptied if necessary.

Sample

The sample preparation is an important part of the HPLC analysis. It is important, that the sample is dissolved and filtered before the measurement. This prevents the contamination of the column and the precipitation of the sample on the column bed. The sample has to be dissolved at any time and shouldn´t precipitated from the eluent. Therefor it is not thoughtful to dissolve the sample in pure methanol or acetonitrile, if you are working with an RP-phase column. The risk of sample precipitation during the measurement is to high. Sample precipitation causes a rising of the back pressure and clogging of the column, which leads to an irreversible poor resolution.

What is the right solvent mixture to dissolve many sample?

This question can´t be answered easily and depends on the sample. The most important thing is, that the sample is in solution during the whole measurement. How can you find the right solvent mixture? One way is to do this in practice is the following: At first take 1 mg of your sample and dissolve it in 500 µL HPLC Methanol respectively ACN. Is the solution still clear you can successively add water in 100 µL steps. After each addition check if the solution is still clear. If the solution is clear go on with addition until you reach a total volume of 1000 µL. If it becomes cloudy stop the addition of water and add 100 µL of HPLC Methanol respectively ACN. The precipitated sample should dissolve again. Then calculate the solvent ratio. This is the maximum solvent ratio you can use for the eluent without the risk of precipitation of the sample on the column bed. Solvent mixtures with higher amount of water would lead to precipitation. To get rid of remaining particles, the sample solution is filtered with a syringe filter.

Start

Bevor you start the HPLC it is important to make preparations (see previous paragraph).

Explanation Picture
If you want to start the HPLC you have to switch on the different parts of the HPLC-assembly. # Pump # Interface/ Interface # Autosampler/ Injector # RI-Detector # DAD-Detector # Column Oven # Column Switcher # Computer (if it is not already running)
Startreihenfolge
Open the programm "D 7000- HSM" by double clicking the shortcut with the left mouse button.
Desktop
Programm
Programm
After the programm has opened click the white " i " (1) on blue ground. A window opens and shows you the hardware status. For connecting the computer with the HPLC click on " Initialize" (2). The status changes to "Downloading" (3). After a while the HPLC and computer are connected and the status changes to "Idle" (3a). All connected parts are shown on the left (4). The connection then can be confirmed with "OK" (5).
Start
Initializing
Initializing
Connected
After the HPLC is connected to the computer you have to purge the system. To purge it manually, is the easiest way to do it. *Manually set the pump (Manual set Manual set.png; 2 Zahl 2.png; 5 Zahl 5.png; Enter Enter.png; 2 Zahl 2.png; 5 Zahl 5.png; Enter Enter.png; 2 Zahl 2.png; 5 Zahl 5.png; Enter Enter.png; Enter Enter.png; Enter Enter.png; Enter Enter.png) *Turn on the Pump (Pump ON/OFF ON OFF.png); *Open purge valve (1); *Start purging (Purge2 Purge.png); *Purge the system for about 10 minuntes; *Stop purging (Purge2 Purge.png); *Close purge valve (2); *Turn the pump off(Pump ON/OFF ON OFF.png).
Purge valve
When you are finished purging the system you have to choose the applications of a certain operator. In our case "Allgemeinheit Lindhorst" (1, 2, 3).
Initializing
Initializing

Method creating/editing

To be able to separate substances with the HPLC it is nesassary to setup a method. The easiest way to creat a method is by editing an existing method.

Explanation Picture
Click on "Method Setup" and choose a method you want to edit (1,2,3,4)
load Method
load Method
When the window opens, the Method Information Icon is selectedMethod Information.png and the window shows the general Method information(1). These infomation can be changed to the desired ones. The upper part of the window shows different Icons (2). Each Icon leads you to a different method parameters, which you can change to the wished ones. Module Setup Menu *Method Information.png Method Information Use this command if you want to review or modify general Method information such as the Method title, Method name, or solvent names. *Method Configuration.pngMethod Configuration Use this command if you want to review or modify Method Configuration parameters. *Pump Setup.pngPump Setup Use this command if you want to review or modify pump parameters or the solvent table. *Autosampler Setup.png Autosampler Setup Use this command if you want to review or modify autosampler parameters. *Channel 1-DAD Setup.pngChannel 2-RI Setup.png Channel 1 or 2 Detector Setup Use these commands if you want to review or modify the parameters of the detectors on channel 1 or channel 2. *Event Signal.png Event Signal Setup Use this command to initiate the review or modification of Event Signal parameters. *Time Summary.png Time Summary Use this command to display the pump (solvent) table and event table graphically. Data Process Setup Menu *Channel 1.pngChannel 2.png Channel 1 or Channel 2 Use these commands to select a channel (1 or 2) for the subsequent review or modification of data processing parameters. *Calculation Method.png Calculation Method Use this command to review or modify the calculation method. *Component Table.png Component Table Use this command to review or modify the Component Table. *Integration Time Table.png Integration Time Table Use this command to review or modify the Integration Time Table. *Data Processing.png DAD Data Processing Use this command to review or modify DAD data processing parameters. *Chromatogram Display Format.png Chromatogram Display Format Use this command to review or modify parameters. *DAD Display Format.png DAD Display FormatUse this command to review or modify DAD display format parameters. *Confiedence Report.png Confidence Report Use this command to review or modify confidence report parameters. *Report Format.png Report Format Use this command to review or modify report format parameters. *Update Format.png Update Method Use this command to update all parameters of current Method to all other open windows.
Methode laden
If you don´t want to go to much into Details editing the method. Here are the most relevant parameters marked, that should be adapted. *Method Information.png Method Information
L16 S.png
*Method Configuration.png Method Configuration
L17 S.png
*Pump Setup.png Pump Setup
L18 S.png
*Channel 1-DAD Setup.pngChannel 2-RI Setup.png Channel 1 or 2 Detector Setup
L20 S.png
*DAD Display Format.png DAD Display Format
L29 S.png
After you have changed all parameters to your own desires, you have to save the method. Click File (1) and Save Method As (2). In the opening Window you have to give the method a name (3), assign a Aplikation to it (4) and press OK (5).
Saving Method
Saving Method

Measuring

After purging the system and creating a method, the column you want to use should be chosen and flushed for about ~30 min with the desired solvent mixture. Columns don´t like harsh polarity changes, therefore a slow change of the solvent polarity to the desired solvent mixture is preferred. After conditioning the column, the prepared sample has to be put into the sample table of the autosampler. Then the position and the related method are listed in the sequence table.

Creating a sequence table

Explanation Picture
to start creating a new Sample Table click (1, 2, 3).
Probentisch
Sequence table
Change the sample table parameters as desired and switch to the Sample table (1).
Sample table parameter
Fill in the Sample table.
Sample Table
Save Sample Table.(1, 2, 3)
Saving Sample Table

Start Measurment

Explanation Picture
Turn on the pump. (1,2).
S8.png
S9.png
Open the sample table to aquire data (1,2).
Start
open sample table
Start the measurment (1).Be patient the system is not so fast !!!!!!!!!!
Start Measurment

Flushing

After the last measurement the column has to be flushed and stored at a certain solvent mixture. The column is normally flushed with a solvent mixture, which has a higher organic content then the solvent used during the measurement.

Explanation Picture
The easiest way to flush the column is manually. *Manually set the pump (Manual set Manual set.png; 0 Zahl 0.png; 5 Zahl 5.png; Enter Enter.png; 4 Zahl4.png; 5 Zahl 5.png; Enter Enter.png; 0 Zahl 0.png; 5 Zahl 5.png; Enter Enter.png; Enter Enter.png; Enter Enter.png; Enter Enter.png) *Turn on the Pump (Pump ON/OFF ON OFF.png);
Flushing
Let it run for about 30 min. *Turn the pump off(Pump ON/OFF ON OFF.png). *Change the pump manually to the storange solvent mixture (this depend on the column); *Turn the pump back on (Pump ON/OFF ON OFF.png) Let the system run for additional 10 min *Switch of the pump (Pump ON/OFF ON OFF.png).
Pumpe
key panel

Shut Down

Explanation Picture
Turn the pump off.
Pumpmenu
Press OK
Dissconect HPLC.
Shut1.png
Shut2.png
Shut3.png
Switch off the HPLC.
L HPLC Nummeriert.png

Auswerten

Die Auswertung kann entweder an Hand des ausgedruckten Reports oder an Hand eines im offline Programm von Chemstation modifizierten Reports erfolgen. Von Interesse sind hierbei insbesondere die Retentionszeiten und Integrale der einzelnen Signale, auch das UV-Spektrum der einzelnen Signale gibt wichtige Hinweise.

Abschließende Hinweise

Vor Verwendung der HPLC ist es sinnvoll seine Zielsetzung klar zu definieren. Es bietet sich auch an für eine gute Dokumentation bei jeder Messungen ein Laufzettel zu verwenden, in dem alle Parameter der Messung vermerkt sind um eine Reproduzierbarkeit zu gewährleisten. Ein Vordruck kann hier oder im Desktopbereich des HPLC-Computers gefunden werden und bei Bedarf ausgedruckt werden.