logging in or signing up Supercritical Fluid Chromatography BHARATHBODASOU Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: Embed: Flash iPad Dynamic Copy Does not support media & animations Automatically changes to Flash or non-Flash embed WordPress Embed Customize Embed URL: Copy Thumbnail: Copy The presentation is successfully added In Your Favorites. Views: 1307 Category: Science & Tech.. License: All Rights Reserved Like it (0) Dislike it (0) Added: April 01, 2012 This Presentation is Public Favorites: 1 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript PowerPoint Presentation: Supercritical Fluid Chromatography By BHARATH B M. Pharmacy Pharmaceutical Analysis & Quality Assurance Sri Krupa Institute of Pharmaceutical Sciences UNDER THE GUIDENCE OF Dr. S. Y. ManjunathPowerPoint Presentation: Supercritical fluid chromatographyPowerPoint Presentation: In SFC, the sample is carried through a separating column by a supercritical fluid where the mixture is divided into unique bands based on the amount of interaction between the individual analytes and the stationary phase in the coumn . As these bands leave the column their identities and quantities are determined by a detector Supercritical Fluids Supercritical temperature :For every substance there is a temperature above which it can no longer exist as a liquid, no matter how much pressure is applied. Supercritical pressure : For every substance there is a pressure above which the substance can no longer exist as a gas, no matter how high the temperature is raised.PowerPoint Presentation: Supercritical fluid: substance has properties intermediate between a liquid and a gas, non-compressible and high density fluid. ". The temperarure and pressure are higher than critical temperature ( Tc ) and critical pressure (Pc) they are proper to fluidsPowerPoint Presentation: Theory : Part of the theory of separation in SFC is based on the density of the supercritical fluid which corresponds to solvating power. As the pressure in the system is increased , the supercritical fluid density increases and correspondingly its solvating power increases . Therefor , as the density of the supercritical fluid mobile phase is increased, components retained in the column can be made to elute. This is similar to temperature programming in GC or using a solvent gradient in HPLC.PowerPoint Presentation: Instrumentation: Mobile phase Stationary Phase Pump Injection System Oven Column DetectorPowerPoint Presentation: Mobile phase: There are a number of possible fluids which may be used in SFC as the mobile phase. Mostly CO 2 is used. The main disadvantage of carbon dioxide is its inability to elute very polar or ionic compounds. This can be overcome by adding a small portion of a second fluid called a Modifier fluid. (alcohols, cyclic ethers, acetonitrile and chloroform) The addition of the modifier fluid improves the solvating ability of the supercritcal fluid and sometimes enhances selectivity of the separation.PowerPoint Presentation: Stationary Phase Same as those for GC and LC, with some modification. Silica/Alumina Useful for non-polar compounds Lead to irreversible adsorption of some polar solutes Widely used polar Stationary Phase are Polysiloxanes :- stable, flexible Si--O bond lead to good diffusion. Substituted with chemical groups for selective interaction with analyte Polymethylsiloxanes :- increase efficiency in separating closely related polar analytes Cyanopropyl polysiloxanes :- useful for compounds with -COOHPowerPoint Presentation: Pumps In contract to HPLC pumping system, pressure rather than flow control is necessary and pulseless operation is more critical. In general, the type of high-pressure pump used in SFC is determined by the column type. For packed columns, reciprocating pumps are generally used, while for capillary SFC syringe pumps are most commonly employed. Reciprocating pumps allow easier mixing of the mobile phase or introduction of modifier fluids. Syringe pumps provide consistent pressure for a neat mobile phasePowerPoint Presentation: Injector Injection in SFC is usually achieved by switching of the content of a sample loop into the carrier fluid at the column entrance by means of a suitable valve. For packed column SFC, a conventional HPLC injection system is adequate, but for the capillary column SFC, the sample volume depends on column diameters and small sample volumes must be quickly injected into the column, therefore pneumatically driven valves are used. Injector Volumes Open tubular columns Injection volumes >96nL Greater volume affects resolution Packed columns Injection volumes >1uLPowerPoint Presentation: Types of Injectors a. Loop injection is a direct transposition of what is applied in analytical SFC. A low pressure feed pump is used to fill the loop. This is mostly recommended for preliminary tests of column performance and elution parameters.PowerPoint Presentation: b . An “ i n-line” injection mode is more versatile: the system offers a better flexibility for changing the injected volume. A high-pressure pump is required to inject the feed solution, but the injected stream is dissolved in the eluent flow. c. The “in-column” injection mode is an alternative which permits injection of the feed solution directly onto the column, without any dilutionPowerPoint Presentation: Oven A thermostated column oven is required for precise temperature control of the mobile phase. Conventional GC or LC ovens are generally used. Columns Once the sample is injected into the supercritical stream it is carried into the analytical column. The column contains a highly viscous liquid (called a stationary phase) into which the analytes can be temporarily adsorbed and then released based on their chemical nature. This temporary retention causes some analytes to remain longer in the column and is what allows the separation of the mixture. Different types of stationary phases are available with varying compositions and polarities. There are two types of analytical columns used in SFC, A). Packed columns contain small deactivated particals to which the stationary phases adhears . The columns are conventionally stainless steel. B). Capillary columns are open tubular columns of narrow internal diameter made of fused silica, with the stationary phase bonded to the wall of the column.PowerPoint Presentation: Detectors SFC is compatible with both HPLC and GC detectors. As a result, optical detectors, flame detectors, and spectroscopic detectors can be used. However, the mobile phase composition, column type, and flow rate must be taken into account when the detector is selected as they will determine which detector is able to be used. Some care must also be taken such that the detector components are capable of withstanding the high pressures of SFC.PowerPoint Presentation: WorkingPowerPoint Presentation: In SFC the mobile phase is initially pumped as a liquid and is brought into the supercritical region by heating it above its supercritical temperature before it enters the analytical column. It passes through an injection valve where the sample is introduced into the supercritcal stream and then into the analytical column. It is maintained supercritical as it passes through the column and into the detector by a pressure restrictor placed either after the detector or at the end of the column. The restrictor is a vital component as it keeps the mobile phase supercritical throughout the separation and often must be heated to prevent colgging ; both variable and fixed restrictors are available.PowerPoint Presentation: SFC Advantages Supercritical fluid chromatography has several main advantages over other conventional chromatographic techniques (GC and HPLC). Compared with HPLC, SFC provides rapid separations without the use of organic solvents. With the desire for environmentally conscious technology, the use of organic chemicals as used in HPLC could be reduced with the use of SFC. Because SFC generally uses carbon dioxide collected as a byproduct of other chemical reactions or is collected directly from the atmosphere, it contributes no new chemicals to the environment. In addition, SFC separations can be done faster than HPLC separations because the diffusion of solutes in supercritical fluids is about ten times greater than that in liquids (and about three times less than in gases). This results in a decrease in resistance to mass transfer in the column and allows for fast high resolution separations.PowerPoint Presentation: Compared with GC, capillary SFC can provide high resolution chromatography at much lower temperatures. This allows fast analysis of thermolabile compounds. Finally SCF have the advantage of higher diffusion constants and lower viscosities relative to liquid solvents. The low viscosity means that pressure drop across the column for a given flow rate is greatly reduced. The greater diffusibility means longer column length can be used. Higher diffusion coefficient means higher analysis speed that increases in the order HPLC, SFC and GC. These advantages are important in both, chromatography and extractions with SCFs.PowerPoint Presentation: Applications SFC finds use in industry primarily for separation of chiral molecules, and uses the same columns as standard HPLC systems. SFC is now commonly used for achiral separations and purifications in the pharmaceutical industry Fossil Fuels and Hydrocarbons Agrichemicals Drugs and Pharmaceuticals Polymers Explosives and Propellants Lipids Carbohydrates Industrial Chemicals Foods and Flavors Natural Products Metal Chelates and Organometallic Compounds EnantiomersPowerPoint Presentation: Thank you You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.