Smah Abdelhamid. Its an analytical techniques that couples chromatographic and spectral methods to exploit the advantages of each Chromatography: identify.

Slides:

Advertisements

Similar presentations

D e t e c t o r s f o r H P L C.

Advertisements

Gas Chromatography 427 PHC.

Jace James & Lauren Erland.  Separation based on charge & frictional force Capillary Electrophoresis (CE)

GAS CHROMATOGRAPHY ENVE 202 Dr. Aslıhan Kerç.

GAS CHROMATOGRAPHY.

Liquid chromatography coupled with Mass spectroscopy

Gas Chromatography There an be many parts to a gas chromatography system but the basic components include: An injection system. A column (controllable.

Micromass Quattro Ultima triple quadrupole mass spectrometric detector HPLC system (LC) Electrospray ionisation source (-ve & +ve ion) Photodiode array.

HPLC Coupled with Quadrupole Mass Spectrometry and Forensic Analysis of Cocaine.

Lecture 8. GC/MS.

Chromatography Russian scientist Tswett in 1906 used a glass columns packed with finely divided CaCO3 to separate plant pigments extracted by hexane. The.

LC/MS WORKSHOP IOWA STATE UNIVERSITY Kamel Harrata  Instrument Description  Data Acquisition  Data Processing.

Instant Notes Analytical Chemistry

Russell Rouseff FOS 6355 Summer 2005 What is Mass Spectroscopy Analytical Chemistry Technique Used to identify and quantify unknown compounds Can also.

Gas Chromatography And Mass Spectrometry

Gas Liquid Chromatography

B IOCHEMICAL INSTRUMENTAL ANALYSIS -11 Dr. Maha Al-Sedik.

Chromatography Year 12.

Drugs were discovered through identifying the active ingredient from traditional remedies or by unexpected discovery. Later chemical libraries of synthetic.

Prabh Jassal SUPA Che113 Forensics Ms. Tolentino.

GCMS: gas chromatography and mass spectrometry

By, Blessy Babu. What is Gas Chromatography?  Gas spectroscopy is a technique used to separate volatile components in a mixture.  It is particularly.

Chemical Analysis. Analytical Techniques When chemical evidence is collected at a crime scene, it must be run through an instrument. These instruments.

Chemical Ideas 7.6 Chromatography. The general principle. Use – to separate and identify components of mixtures. Several different types - paper, thin.

SUPER CRITICAL FLUID CHROMATOGRAPHY

Separation Science Differences in IMFs can be used to separate chemical substances for further analysis. Differences in IMFs can be used to separate chemical.

By: Thilag.k & Stephen. What is Hpcl??? Hplc or high performance liquid chromatography is the most widely used analytical separation technique. The difference.

Sample Preparation Strategies for Routine Trace Mixture Analysis by NMR David Detlefsen, Kenneth Ray & Jeffrey Whitney.

Interfacing Gas Chromatography with Mass Spectroscopy and Infra Red Spectroscopy Is this a large expensive detector…. Or a separation prior to analysis….

Betulin : chemical esterification for therapeutical purposes Iulia Pînzaru 1, Cristina Trandafirescu 2, Zoltan Szabadai 3, Marius Mioc 2, Lenuţa-Maria.

Capillary Electrophoresis (CE) PHAR Lecture Objectives By the end of the lecture, students should be able to: 1.Illustrate the CE instrumental.

Combining and Choosing Analytical Techniques Chapter 8.

Metabolomics and analytical chemistry: GC & GCMS Simone Bossi Analytical Chemistry Lab – Plant Physiology – Plant Biology.

Methods of Chemical Analysis. Selecting an Analytical Technique  Organic vs. Inorganic materials  Organic:  Inorganic:  Quantitative vs. Qualitative.

By- Bhavya, Harsh, Harshvardhan, Namrata, Ronit and Vidhatri

Chapter 29 Supercritical Fluid Chromatography and Extraction.

PRINCIPLE, APPLICATIONS & ADVANCES IN

Stability Indicating Assays for Dose Formulation Stability Testing Teresa Fuller GSK.

Chemistry 2412 L Dr. Sheppard

Organic Analysis Basic concepts. Elements and Atoms Fundamental building block of all substances is the element. Fundamental building block of all substances.

LIQUID CHROMATOGRAPHY-MASS SPECTROMETRY (LC/MS)

GC-MS technique & Its application

Bioseparation II Chromatography Techniques. Chromatography Most widely used purification technique used for biomolecules. Most widely used purification.

Chapter 5 – Organic Analysis

Telephone : / 82 ID: com Website: www

Chemical Ideas 7.6 Chromatography.

Analytical Chemistry II ChEm 321

Mass Spectrometry Vs. Immunoassay

Automation of Sample Preparation for Trace Analysis Haibin Wan

Mass Spectrometry Obaid M. Shaikh.

High Performance Liquid Chromatography (HPLC)

HPLC Equipment : Detectors

Chapter 31 & 32: Separation Science & Chromatography

Pure Carrier Gas Grades (subjective)

Satish Pradhan Dnyanasadhana College, Thane (W)

VAPOUR PHASE CHROMATOGRAPHY

Chromatography Daheeya Alenazi.

Pharmaceutical Analytical Techniques

Gas Chromatography - Parts

Introduction and chromatography

7th East African Health and Scientific Conference

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)

GAS CHROMATOGRAPHY.

Electron Capture Detectors

High performance liquid chromatography (HPLC)

The Role of the Toxicologist

Presentation transcript:

Smah Abdelhamid

Its an analytical techniques that couples chromatographic and spectral methods to exploit the advantages of each Chromatography: identify chemicals purely or nearly purely in complex mixtures. Spectroscopy: yields qualitative information about pure component. Introduce to the scientific community in 1980, by Dr. Tomas Hirschfeld an analytical chemist What?

Highly selective Highly sensitive Use in many Applications purifications Polymerization studies Natural products Pharmaceutical Many more…. Why?

Very sensitive and selective Most common Sample is injected into injection port of GC, than its vaporized, separated in the GC column, than Analyzed by MS detector, and recorded Provides structural information Volatile compounds Polar compounds GC-MS

GC-MS Applications Environomental monitoring and cleanup organic pollutant Criminal forensics Drug detections Fires investigations Explosive investigations Sports Medicine

Double three way diverter in line with an auto sampler, and LC system, and the MS Second most common Poor structure determination LC-MS-MS Increase fragmentation LC-UV-MS Biologhical screening for natural products LC-MS

LC-MS Applications Pharmacokinetics Bioanalysis Proteomics Metabolomics Drug development

Least sensitive High cost Provide best structural information Analysis of natural products Analysis of drug related metabolites in bio-fluids and biomolecules in general analysis of organic molecules Drug impurities Reaction mixtures Drug degradation products HPLC-NMR

HPLC-NMR Autosampler, LC pump, Column, a non- NMR detector Flow is guided in the LC-NMR interface Than its guide it to the Flow-cell NMR probe Head Following that the flow is routed to a fraction collector for recovery or further invegistation.

CE: Capillary Electrophoresis Analysis is driven by an electric filed in narrow tubes Results in fast separation of compounds (almost all compounds can be separated through this methods) Analysis of purities Assays Analysis of trace level determination CE-MS

CE-MS

CE-UV GC-FTIR Identifying isomers Ephendrine-type alkaloid found in dietrary supplements containing the chinese herb ma huang HPLC-ESI-MS HPLC-PDA Analysis of coumarins Other Hyphenated Techniques

Spectra GC-MSLC-MS

Spectra HPLC-NMR CE-MS

Conclusion Since the introduction of hyphenated techniques in the 1980s they under went great evolution due to technology, which has expand its use and applications.

1.Patel, K., Patel, J., Patel, M., Rajput, G., & Patel, H. (2010). Introduction to hyphenated techniques and their applications in pharmacy. Pharmaceutical Methods, 2 (1), 2. doi: / The Hy-phen-ated Methods Tomas Hirschfeld Analytical Chemistry (2), 297A-312A 3. chromatography/analytical-standards/application-area- technique/standards-for-iso html (images) chromatography/analytical-standards/application-area- technique/standards-for-iso html 4. tab/nchembio803_F4.html Reference