Gas Chromatography A separation science.... What is Chromatography? The separation of a mixture of two or more compounds or ions by distribution between.

Slides:



Advertisements
Similar presentations
Introduction to Chromatography
Advertisements

Gas Chromatography Introduction 1.) Gas Chromatography
Gas Chromatography Vaporization of sample Gas-solid
Gas Chromatography 427 PHC.
Lecture 8b Gas Chromatography.
Gas Chromatography.
Gas Chromatography & Gas-Liquid Chromatography
GAS CHROMATOGRAPHY ENVE 202 Dr. Aslıhan Kerç.
Experiment 6 Simple and Fractional Distillation.
1 Gas Chromatography Lecture a. Thermal Conductivity Detector (TCD) This is a nondestructive detector which is used for the separation and collection.
Chromatography CHEMISTRY Chromatography Chromatography is a technique for separating species based on physical or chemical properties. Usually.
In carbon-13 NMR, what do the number of peaks represent?
Chem. 133 – 5/5 Lecture. Announcements Lab Report 2.4 due Thursday – can turn in today for reduction of late penalties Term Project Progress Report –
1 Chapter 24 GC Gas Chromatography. 2 GC Mechanism of separation is primarily volatility. Difference in boiling point, vapor pressure etc. What controls.
Column Chromatography. Types of columns: 1- Gravity Columns: The mobile phase move through the stationary phase by gravity force. 2- Flash Columns (Air.
Gas chromatography is used in many research labs, industrial labs (quality control), forensic (arson and drug analysis, toxicology, etc.), environmental.
Chromatography Chapter 4.
Gas Liquid Chromatography
LECTURE 4: CHROMATOGRAPHY Content: - Chromatographic separation - classifying analytical separations; column chromatography, planar chromatography - gas.
Chapter 6 - Chromatography
Created with MindGenius Business 2005® Performance parameters (Advanced) Theoretical Plate Model Performance parameters (Advanced) Theoretical Plate Model.
Chemical Ideas 7.6 Chromatography. The general principle. Use – to separate and identify components of mixtures. Several different types - paper, thin.
Chapter 27 Gas Chromatography 1. Principles
ANALYTICAL CHEMISTRY CHEM 3811 CHAPTER 22 DR. AUGUSTINE OFORI AGYEMAN Assistant professor of chemistry Department of natural sciences Clayton state university.
Chromatography Separates components in mixture: Based on - polarity
Chromatography Chapter 6.
Magnet Analytical Chemistry Unit 4
1.1 General description - Sample dissolved in and transported by a mobile phase - Some components in sample interact more strongly with stationary phase.
CHROMATOGRAPHY. The general name given to methods by which two or more compounds in a mixture are physically separated by distributing themselves between.
Separation Science Differences in IMFs can be used to separate chemical substances for further analysis. Differences in IMFs can be used to separate chemical.
History of Chromatography n Early LC carried out in glass columns n diameters: 1-5 cm n lengths: cm n Size of solid stationary phase n diameters:
GAS LIQUID CHROMATOGRAPHY
Chem. 230 – 9/23 Lecture.
Gas Chromatography A separation science.... What is Chromatography? The separation of a mixture of two or more compounds or ions by distribution between.
INTRODUCTION TO CHROMATOGRAPY
GAS CHROMATOGRAPHY (GC). GAS CHROMATOGRAPHY Sample is injected (using a syringe) into the injection port. Sample vaporizes and is forced into the column.
Gas Chromatography Lecture 38.
Gas Chromatography Experiment. Gas Chromatography - Gas Chromatography (GC) is a common technique used to separate and identify volatile organic compounds.
Intensive General Chemistry Chemical separations II Isabelle Vu Trieu
5.2 Notes Organic Analysis Pg Three chromatographic processes are used 1. Gas 2. High-Performance Liquid Chromatography 3. Thin-layer chromatography.
Analytical Separations
Basic Gas Chromatography. History Separation of dyes by Runge Separation of plant pigments by Tswett Theoretical gc (Martin & Synge)
1 Gas Chromatography Lecture Liquid Stationary Phases In general, the polarity of the stationary phase should match that of the sample constituents.
HPLC.
5.2 Notes Organic Analysis Pg Objectives List and describe the parts of a gas chromatography Explain the difference between thin- layer chromatography.
Lecture 4a Gas Chromatography.
GAS CHROMATOGRAPHY In gas chromatography (GC), the sample is injected onto the head of a chromatographic column and immediately vaporized. The components.
GAS LIQUID CHROMATOGRAPHY Principles Partition of molecules between gas (mobile phase) and liquid (stationary phase).
Ch 21 – Principles of Chromatography and Mass Spectrometry Ch 22 – Gas and Liquid Chromatography.
Prof. aza Basic gas chromatography prof. aza Department of Pharmacy, Andalas University STIFI Perintis, Padang STIFAR, Pekan Baru STIFI Bhakti Pertiwi,
Chem. 133 – 5/3 Lecture. Announcements Lab – Term Project Progress Report Due Today – Last Assignments: Term Project Poster and Peer Review Grading (Friday,
Gas Chromatography. In Gas Chromatography (GC), a gaseous mobile phase transports a gaseous solute through a long, thin column containing solid or liquid.
Organic Analysis Basic concepts. Elements and Atoms Fundamental building block of all substances is the element. Fundamental building block of all substances.
Gas Chromatography Oleh : Rohayati, S.Pd SMK Negeri 13 Bandung.
Experiments in Analytical Chemistry
Organic Chemistry Lab 315 Fall, 2016.
A guide for A level students KNOCKHARDY PUBLISHING
Chem. 133 – 5/11 Lecture.
Chem. 133 – 5/4 Lecture.
VAPOUR PHASE CHROMATOGRAPHY
Chromatography Daheeya Alenazi.
Principle of separation of different components:
Introduction and chromatography
High-Performance Liquid Chromatography
5 week plan Each week you will have 2 single lessons and 1 double lesson. In those lessons you will learn aspects from Modern Analytical Techniques (MAT)
A guide for A level students KNOCKHARDY PUBLISHING
GAS CHROMATOGRAPHY.
CHROMATOGRAPHY.
High-Performance Liquid Chromatography
Presentation transcript:

Gas Chromatography A separation science...

What is Chromatography? The separation of a mixture of two or more compounds or ions by distribution between a stationary phase and a mobile phase. Chromatography is not an identification method!!

Types of Chromatography? Liquid- Solid - TLC, column, HPLC Liquid-Gas - Gas Chromatography stationary mobile Based on partition between two phases: Components of a mixture partition between being dissolved in a stationary liquid phase or in a mobile gas phase.

Gas Chromatography (GC) GC is used to separate mixtures of volatile compounds whose boiling points may differ by as little as 0.5 °C. Analytical tool to HELP identify components in a mixture. Preparatory applications when quantities of pure compounds are desired.

What does a Gas Chromatograph Look Like ?

Where does the separation occur? - in the column! Heat

PARAMETERS AFFECTING SEPARATION I. Nature of Stationary Phase II. Mobile Phase (inert carrier gas) III. Size (length) of Column IV. Rate of Flow (of mobile phase) V. Temperature (of column)

Parameters Affecting Separation in GC I. Stationary Phase A. Solid Support - inert, high surface area, resistant to crushing under operating pressures B. Liquid Coating - high boiling point, low viscosity at operating temperature, polarity “LIKE DISSOLVES LIKE”

I. A. Examples of Solid Support Materials Chromasorb P - Pink diatomaceous earth - metallic contaminants - pH 6-7 -relatively soft Chromasorb W - White diatomaceous earth - acid washed to remove metals Chromasorb G - Chromasorb W which has been chemically cross-linked for physical strength Chromasorb T - Teflon beads Other - charcoal, alumina, silica, etc. Least Inert Most Inert

I. B. Examples of Liquid Phase Materials Liquid PhaseTypeProperty Max Temp. Limit (°C) Carbowax 20MHydrocarbon waxPolar250 OV-17 Methylphenyl silicone Intermediate polarity 300 QF-1Fluorosilicone Intermediate polarity 250 SE-30 Silicone gum rubber Nonpolar375 Table 6.1, pg. 197 in textbook *Above max temp., liquid phase will vaporize and bleed from column w/the mobile phase

I. B. How much Liquid Phase ? Rule of Thumb - The mass of stationary phase should be about 30 times that of the sample to be separated. Columns should be labeled as, for example: 10% OV-1 on Chromasorb W (This means the stationary phase is 10% by weight of OV-1 on Chromasorb W.)

I. B. Two important factors that determine solubility of a gas in a liquid: 1.Vapor pressure at column temp. i.As VP increases, solubility decreases. 2.Magnitude of the gas interactions with the liquid phase. i.“Like dissolves like”

Parameters Affecting Separation in GC II.Mobile Phase A. Carrier Gas - should be pure, dry, and inert Examples: He and nitrogen (sometimes hydrogen)

Parameters Affecting Separation in GC III. Size of Column Preparatory = larger internal diameter and shorter length - b/c greater loading capacity Packed = 1/4 to 3/8 inch diameter - 6 to 12 ft long -copper, stainless steel, or glass Capillary = mm diameter - 30 ft - good separations but small loading capacity Resolution increases with: Larger column length (better ΔR t between bands) Smaller diameter (narrower bands)

Parameters Affecting Separation in GC IV. Rate of Flow Too Slow = diffusion and poor separation Too Fast = bunching-up and poor separation

Parameters Affecting Separation in GC V. Temperature Higher Temperature = sample spends less time in the stationary liquid phase - if too high, there will be no separation

How do you monitor the column? Thermal Conductivity (TC) Ionization – Flame Ionization ( FID ) – Electron Capture ( EC ) – Mass Spectrometer ( MSD ) – Other [ flame photometry, coulomeric, etc. ] Detectors:

Thermal Conductivity Detector The smaller the molecules in the gas phase, the better they cool the filament… As temperature changes so does resistance... UNIVERSAL DETECTOR !

Flame Ionization Detector The carrier gas and sample are burned in a hydrogen flame to create ions. These ions pass through a capacitor. Charged particles conduct electricity from one pole to the other creating an electric current. The millivolt current is measured. Since combustion produces low molecular weight gases such as CO 2 and H 2 O and requires the input of air (nitrogen and oxygen) these gases can not be measured by this method. This is not a universal detector and requires destruction of at least part of the sample.

Electron Capture Detector A beta emitter gives off electrons. As the organic compounds pass through the stream of electrons, some of them become ions. The ions produced conduct current from one plate to the other of the detector and the current is measured. This method works very well for compounds containing highly electronegative elements such as the halogens. However, there are some substances which do not eagerly accept the electrons. This is not a universal detector and requires destruction of at least part of the sample, as well as AEC license.

What are the variables ? Retention Time Resolution Theoretical Plates Percent Area Others - peak type, peak width, chart speed, area reject, etc.

Longer R t means greater solubility of component in liquid phase.. Chromatogram should be labeled with column temperature, flow rate, and liquid phase…. Measured in minutes (given on chromatogram!) Distance = R t Chart Speed Retention Time (R t )

Greater retention time = better separations To increase retention time: lower the temperature use a longer column change to another liquid phase R t of a component is independent of the presence/absence of other components in the mixture.

Resolution Resolution = quality of separation Resolution = ( t 2 - t 1 ) (avg. width at base) Resolution <1 means overlap Resolution > 1 = no overlap

Resolution …is quality of separation. To increase resolution: decrease the temperature longer column greater % liquid phase different liquid phase

Theoretical Plates Theoretical Plates – as in distillation, is measure of number of equilibria encountered. GC has many more theoretical plates than fractional distillation. Theo Plates = 16 [ R t / (peak width at base)] 2 All units must cancel !! Used to monitor column aging ….

Theoretical Plates Theoretical Plates -- more plates means greater efficiency! To increase the number of theoretical plates: If the column has been used for a while, replace with a newer column. OR… longer column greater % liquid phase different liquid phase

Percent Area % Area is approximately the % composition…. If you do not have an electronic integrator, you may determine the area by measuring the height of the peak and multiplying by the width of the peak at half height. % Area would then be the area of one peak divided by the total area of all peaks. This assumes that each compound creates the same current for the same mass of sample. i.e. response/weight factors

Flow Rate How to calculate Flow Rate… - Some air will undoubtedly get into the column during injection. - However, this air will not be retained by the column, and will simply be moving along with the carrier gas (at the same rate). This air peak usually appears within the first few seconds. Flow Rate = (Length of column) / (R t of the air peak)

General Procedure will include… 1.The GC will be set up by the instructor. 2.Record all pertinent set-up factors. 3.Follow the directions for the software in the Procedure handout. 4.Draw up microliter of the sample into the syringe – be careful not to have bubbles. 5. Insert the syringe needle fully into the appropriate inlet and quickly push the plunger, remove the needle, and start the integrator. Be careful not to bend the needle or plunger. 6. Wait long enough to ensure that all the material you have injected is out of the column, then end the run. 7.Repeat for all samples.