SlideShare a Scribd company logo

Hplc..

Download as PPT, PDF
VN Raj
VN Raj
Education
1 of 21
HPLC HigH Performance Liquid cHromatograPHy Presented by;- V.N.Raju B-Pharmacy 4th year Guided by: M. Alekhya Mam NNR school of pharmacy.. 1
contentS:  Definition  Types of Separations  Principle of HPLC  Instrumentation of HPLC  Applications & uses of HPLC NNR school of pharmacy.. 2
introduction HPLC:- High Performance Liquid Chromatography  a powerful tool in analysis, it yields high performance and high speed compared to traditional columns chromatography because of the forcibly pumped mobile phase.  HPLC is a chromatographic technique that can separate a mixture of compounds  It is used in biochemistry and analytical chemistry to identify, quantify and purify the individual components of a mixture. NNR school of pharmacy.. 3
TYPES OF HPLC TECHNIQUES: A. Based on modes of chromatography 1. Normal phase mode 2.Reverse phase mode B. Based on principle of separation 1. Adsorption chromatography 2. Ion exchange chromatography 3. Ion pair chromatography 4.Size exclusion(or)Gel permeation chromatography 5. Affinity chromatography 6. Chiral phase chromatography NNR school of pharmacy.. 4
C. Based on elution technique 1. Isocratic separation 2. Gradient separation D. Based on the scale of operation 1. Analytical HPLC 2. Preparative HPLC E. Based on the type of analysis 1. Qualitative analysis 2. Quantitative analysis NNR school of pharmacy.. 5
PrinciPLe of HPLc  The principle of separation in normal phase mode and reverse phase mode is adsorption.  When a mixture of components are introduced into a HPLC column, they travel according to their relative affinities towards the stationary phase.  The component which has more affinity towards the adsorbent, travels slower.  The component which has less affinity towards the stationary phase travels faster.  Since no two components have the same affinity towards the stationary phase, the components are separated. NNR school of pharmacy.. 6
INSTRUMENTATION A . Solvent delivery system(mobile phase) B. pumps C. injector D. column E . Detector: F. Recorder NNR school of pharmacy.. 7
SOLVENT DELIVERY SYSTEM: The solvents or mobile phases used must be passed through the column at high pressure at about 1000 to 3000 psi. this is because as the particle size of stationary phase is few μ (5-10μ), the resistance to the flow of solvent is high. Hence such high pressure is recommended. The choice of mobile phase is very important in HPLC and the eluting power of the mobile phase is determined by its overall polarity, the polarity of the stationary phase and the nature of the sample components. In normal phase chromatography hexane, is octane, diethyl ether are the mobile phases. In reverse phase chromatography water, methanol, acetonitrile are the mobile phases. Mixing unit is used to mix the solvents in different proportions and pass through the column. There are 2 types of mixing units. 1. low pressure mixing chamber and 2. high pressure mixing chamber. Mixing of solvents is done either with a static mixer or a dynamic mixer. NNR school of pharmacy.. 8
PUMPS: 2 types of pumps are there. 1. Syringe Pumps 2. Reciprocating Pumps Pumping systems: –Requirement:high P(6kpsi), pulse-free, constant F(0.1 10mL/min.),reproducibility(0.5%), resistant to corrosion – Displacement pump (Screw-driven syringe pump): pulse free, small capacity (250 mL), no gradient elution. Limited mobile phase capacity. Reciprocating pump: Most widely used. Small internal volume (35 ~ 400 μL), high-pressure (105 psi), gradient elution, constant flow. Need pulse damper. NNR school of pharmacy.. 9
SAMPLE INJECTION SYSTEM: Several devices are available either for manual or auto injection of the sample. Different devices are: 1.Septum injectors:- the injection the sample through a rubber septum. The septum has to withstand high pressure. This is not common. 2. Stop flow injectors:- the flow of mobile phase is stopped for a while and the sample is injected through a valve device. 3. Rheodyne injectors (loop valve type):- it is most popular injection. this has a fixed volume loop like 20μl or 50μl or more injector has two modes NNR school of pharmacy.. 10
COLUMNS: – Stainless steel tubing for high pressure – Heavy-wall glass or PEEK tubing for low P (< 600 psi) Column material:- The column are made up of either stainless steel, glass, poly-ethyiene and PEEK(poly ether ether ketone). Most widely used as a stainless steel which can withstand high pressure. Guard column: These is very small quantity of absorbend and improves the life of the analytical column. At also act as pre-filter to remove particulate matter, if any, and other material. Analytical column:- The most important part of the HPLC technique which decides the efficiency of separation. These are several stationary phase available depending upon the technique or mode of separation used. NNR school of pharmacy.. 11
DETECTORS: Detectors used depends upon the property of the compounds to be separated. Different detectors available are: 1. Refractive index detectors 2. U.V detectors 3. Fluorescence detectors 4. Electro chemical detectors 5. Evaporative light scattering detectors 6. IR detectors 7. Photo diode array detector: NNR school of pharmacy.. 12
1.Refractive index detectors: This is a non specific or universal detector. This is not much used for analytical applications because of low sensitivity and specificity. NNR school of pharmacy.. 13
2. U.V detectors: This detector is based upon the light absorption characteristics of the sample. The two types of detectors available. 1.Fixed wavelength detector. in which the operates 254nm where most drug compounds absorb. 2.Variable wavelength detector. in which can operated from 190nm to 600nm. NNR school of pharmacy.. 14
3. Fluorescence detectors:  The detector is based on the fluorescent radiation emitted by some class of compounds.  The excitation wavelength and emission wavelength can be selected for each compound.  These detector more specificity and sensitivity. The detector is that some compounds are not fluorescent. NNR school of pharmacy.. 15
4.Electro chemical detectors: •Based on amperometric response of analyte to electrode usually held at constant potential. •If the analyte is electro active, can be highly sensitive since response is based on a surface phenomenon rather than a solution bulk property (e.g. UV-vis absorbance) •simplicity, convenience and wide-spreading application • Thin-layer flow cell of Teflon : 50μm thick, 1 ~ 5 μL volume • Indictor E: Pt, Au, C • Multi-electrode: simultaneous detection or sample purity indication. NNR school of pharmacy.. 16
5. Evaporative light scattering detectors: • Responds to any analyte that is significantly less volatile than the mobile phase. • Eluate is mixed with N2(g) and forms a fine mist. • Solvent (m.p.) evaporates leaving fine particles of analyte. The particles themselves are detected by light scattering. • Response is proportional to analyte mass. NNR school of pharmacy.. 17
6. IR detectors: • filter instrument or FTIR • Similar cell (V, 1.5 ~ 10 μL and b, 0.2 ~ 1.0mm) • Limit: no suitable solvent, special optics • FT-IR allows for spectrum records of flowing systems analogous to the diode array system. • Water/alcohols can be major interferences to solute detection • LOD 100 ng 7. Photo diode array detector: This is a recent one which is similar to U.V detector which operates from 190-600 nm. Allows for the recording of the entire spectrum of each solute as it passed through the diode array detector. The resulting spectra is a 3-D or three dimensional plot of Response Vs Time Vs Wave length. NNR school of pharmacy.. 18
HPLC IMPORTANCE &APPLICATIONS Chemical Environmental Pharmaceuticals Consumer Products Bioscience proteins peptides nucleotides Clinical Determination of polystyrenes dyes phthalates Analysis of tetracyclines corticosteroids antidepressants barbiturates amino acids vitamins homocysteine lipids antioxidants sugars polyaromatic hydrocarbons Inorganic ions herbicides NNR school of pharmacy.. 19
Other USES OF HPLC :- 1.This technique is used for chemistry and biochemistry research analyzing complex mixtures, purifying chemical compounds, developing processes for synthesizing chemical compounds, isolating natural products, or predicting physical properties. It is also used in quality control to ensure the purity of raw materials, to control and improve process yields, to quantify assays of final products, or to evaluate product stability and monitor degradation. 2. In addition, it is used for analyzing air and water pollutants, for monitoring materials that may jeopardize occupational safety or health, and for monitoring pesticide levels in the environment. Federal and state regulatory agencies use HPLC to survey food and drug products, for identifying confiscated narcotics or to check for adherence to label claims. NNR school of pharmacy.. 20
THANK YOU… NNR school of pharmacy.. 21

Recommended

Instrumental Methods of Analysis
Instrumental Methods of AnalysisInstrumental Methods of Analysis
Instrumental Methods of Analysis
shweta mishra
 
DETECTORS IN HPLC
DETECTORS IN HPLCDETECTORS IN HPLC
DETECTORS IN HPLC
Raghavendra institute of pharmaceutical education and research .
 
Pumps
PumpsPumps
Pumps
Sumant Saini
 
Columns in HPLC
Columns in HPLCColumns in HPLC
Columns in HPLC
Varad Bende
 
Instrumentation Of HPLC
Instrumentation Of HPLCInstrumentation Of HPLC
Instrumentation Of HPLC
mddwivedi
 
HPLC AND ITS PHARMACEUTICAL APPLICATIONS
HPLC AND ITS PHARMACEUTICAL APPLICATIONSHPLC AND ITS PHARMACEUTICAL APPLICATIONS
HPLC AND ITS PHARMACEUTICAL APPLICATIONS
NEELUMARIAMVARGHESE
 
HPLC
HPLCHPLC
HPLC
nehabhu
 
Detectors used in gas chromatography
Detectors used in gas chromatographyDetectors used in gas chromatography
Detectors used in gas chromatography
Vrushali Tambe
 

Recommended

Instrumental Methods of Analysis
Instrumental Methods of AnalysisInstrumental Methods of Analysis
Instrumental Methods of Analysis
shweta mishra
 
DETECTORS IN HPLC
DETECTORS IN HPLCDETECTORS IN HPLC
DETECTORS IN HPLC
Raghavendra institute of pharmaceutical education and research .
 
Pumps
PumpsPumps
Pumps
Sumant Saini
 
Columns in HPLC
Columns in HPLCColumns in HPLC
Columns in HPLC
Varad Bende
 
Instrumentation Of HPLC
Instrumentation Of HPLCInstrumentation Of HPLC
Instrumentation Of HPLC
mddwivedi
 
HPLC AND ITS PHARMACEUTICAL APPLICATIONS
HPLC AND ITS PHARMACEUTICAL APPLICATIONSHPLC AND ITS PHARMACEUTICAL APPLICATIONS
HPLC AND ITS PHARMACEUTICAL APPLICATIONS
NEELUMARIAMVARGHESE
 
HPLC
HPLCHPLC
HPLC
nehabhu
 
Detectors used in gas chromatography
Detectors used in gas chromatographyDetectors used in gas chromatography
Detectors used in gas chromatography
Vrushali Tambe
 
Ultra Performance Liquid Chromatography
Ultra Performance Liquid ChromatographyUltra Performance Liquid Chromatography
Ultra Performance Liquid Chromatography
Mahewash Sana Pathan
 
Nephelo Turbidometry
Nephelo TurbidometryNephelo Turbidometry
Nephelo Turbidometry
NimishKhandekar
 
Derivitization of gc
Derivitization of gcDerivitization of gc
Derivitization of gc
ceutics1315
 
HPTLC
HPTLCHPTLC
HPTLC
Vaishali Dudhabale
 
instrumentation of HPLC
instrumentation of HPLCinstrumentation of HPLC
instrumentation of HPLC
samiya shaik
 
Hplc.ppt
Hplc.pptHplc.ppt
Hplc.ppt
SWAGATA CHAKRABORTY
 
Hyphenated techniques(GC-MS/MS, LC-MS/MS, HPTLC-MS)
Hyphenated techniques(GC-MS/MS, LC-MS/MS, HPTLC-MS)Hyphenated techniques(GC-MS/MS, LC-MS/MS, HPTLC-MS)
Hyphenated techniques(GC-MS/MS, LC-MS/MS, HPTLC-MS)
Dr. Dinesh Mehta
 
Quadrupole mass spectrometer
Quadrupole mass spectrometerQuadrupole mass spectrometer
Quadrupole mass spectrometer
Reshmi Rao
 
Instrumentation of Thin Layer Chromatography
Instrumentation of Thin Layer ChromatographyInstrumentation of Thin Layer Chromatography
Instrumentation of Thin Layer Chromatography
Tanmoy Sarkar
 
Gas Chromatography
Gas ChromatographyGas Chromatography
Gas Chromatography
Rahul Krishnan
 
Paper chromatography
Paper chromatographyPaper chromatography
Paper chromatography
Madhusudan Bachute
 
Calibration of analytical instruments
Calibration of analytical instrumentsCalibration of analytical instruments
Calibration of analytical instruments
VigneshVicky470
 
HIGH PERFORMANCE LIQUID CHROMATOGRAPHY (HPLC)
HIGH PERFORMANCE LIQUID CHROMATOGRAPHY (HPLC)HIGH PERFORMANCE LIQUID CHROMATOGRAPHY (HPLC)
HIGH PERFORMANCE LIQUID CHROMATOGRAPHY (HPLC)
Suneal Saini
 
HPLC .pdf
HPLC .pdfHPLC .pdf
HPLC .pdf
VAISHNAVI BHEDODKAR
 
Detector of HPLC
Detector of HPLCDetector of HPLC
Detector of HPLC
khaterehz
 
HPLC
HPLCHPLC
HPLC
vidya chowdhary
 
LC-MS
LC-MSLC-MS
LC-MS
lakshmi narayana
 
solid phase extraction and application
solid phase extraction and applicationsolid phase extraction and application
solid phase extraction and application
Piramal Healthcare
 
Ion excghnge chromatography
Ion excghnge chromatographyIon excghnge chromatography
Ion excghnge chromatography
Manoj Mankala
 
FLAME EMISSION SPECTROSCOPY
FLAME EMISSION SPECTROSCOPY FLAME EMISSION SPECTROSCOPY
FLAME EMISSION SPECTROSCOPY
GOPALASATHEESKUMAR K
 
HPLC Principle,Instrumentation and Application
HPLC Principle,Instrumentation and ApplicationHPLC Principle,Instrumentation and Application
HPLC Principle,Instrumentation and Application
Alakesh Pradhan
 
Thin Layer Chromatography and HighPerformance Thin Layer chromatography
Thin Layer Chromatography and HighPerformance Thin Layer chromatographyThin Layer Chromatography and HighPerformance Thin Layer chromatography
Thin Layer Chromatography and HighPerformance Thin Layer chromatography
Nani Karnam Vinayakam
 

More Related Content

What's hot

Derivitization of gc
Derivitization of gcDerivitization of gc
Derivitization of gc
ceutics1315
 
solid phase extraction and application
solid phase extraction and applicationsolid phase extraction and application
solid phase extraction and application
Piramal Healthcare
 

What's hot (20)

Ultra Performance Liquid Chromatography
Ultra Performance Liquid ChromatographyUltra Performance Liquid Chromatography
Ultra Performance Liquid Chromatography
 
Nephelo Turbidometry
Nephelo TurbidometryNephelo Turbidometry
Nephelo Turbidometry
 
Derivitization of gc
Derivitization of gcDerivitization of gc
Derivitization of gc
 
HPTLC
HPTLCHPTLC
HPTLC
 
instrumentation of HPLC
instrumentation of HPLCinstrumentation of HPLC
instrumentation of HPLC
 
Hplc.ppt
Hplc.pptHplc.ppt
Hplc.ppt
 
Hyphenated techniques(GC-MS/MS, LC-MS/MS, HPTLC-MS)
Hyphenated techniques(GC-MS/MS, LC-MS/MS, HPTLC-MS)Hyphenated techniques(GC-MS/MS, LC-MS/MS, HPTLC-MS)
Hyphenated techniques(GC-MS/MS, LC-MS/MS, HPTLC-MS)
 
Quadrupole mass spectrometer
Quadrupole mass spectrometerQuadrupole mass spectrometer
Quadrupole mass spectrometer
 
Instrumentation of Thin Layer Chromatography
Instrumentation of Thin Layer ChromatographyInstrumentation of Thin Layer Chromatography
Instrumentation of Thin Layer Chromatography
 
Gas Chromatography
Gas ChromatographyGas Chromatography
Gas Chromatography
 
Paper chromatography
Paper chromatographyPaper chromatography
Paper chromatography
 
Calibration of analytical instruments
Calibration of analytical instrumentsCalibration of analytical instruments
Calibration of analytical instruments
 
HIGH PERFORMANCE LIQUID CHROMATOGRAPHY (HPLC)
HIGH PERFORMANCE LIQUID CHROMATOGRAPHY (HPLC)HIGH PERFORMANCE LIQUID CHROMATOGRAPHY (HPLC)
HIGH PERFORMANCE LIQUID CHROMATOGRAPHY (HPLC)
 
HPLC .pdf
HPLC .pdfHPLC .pdf
HPLC .pdf
 
Detector of HPLC
Detector of HPLCDetector of HPLC
Detector of HPLC
 
HPLC
HPLCHPLC
HPLC
 
LC-MS
LC-MSLC-MS
LC-MS
 
solid phase extraction and application
solid phase extraction and applicationsolid phase extraction and application
solid phase extraction and application
 
Ion excghnge chromatography
Ion excghnge chromatographyIon excghnge chromatography
Ion excghnge chromatography
 
FLAME EMISSION SPECTROSCOPY
FLAME EMISSION SPECTROSCOPY FLAME EMISSION SPECTROSCOPY
FLAME EMISSION SPECTROSCOPY
 

Viewers also liked

Gas Chromatography and HPLC
Gas Chromatography and HPLCGas Chromatography and HPLC
Gas Chromatography and HPLC
Momina Mateen
 
Gravimetric methods of analysis [compatibility mode]
Gravimetric methods of analysis [compatibility mode]Gravimetric methods of analysis [compatibility mode]
Gravimetric methods of analysis [compatibility mode]
Lujain AL-Ashqar
 
Abzyme(catalytic antibody)
Abzyme(catalytic antibody)Abzyme(catalytic antibody)
Abzyme(catalytic antibody)
mahdi zarei
 
Sample injection system in hplc
Sample injection system in hplcSample injection system in hplc
Sample injection system in hplc
Ram Mohan S R
 

Viewers also liked (20)

HPLC Principle,Instrumentation and Application
HPLC Principle,Instrumentation and ApplicationHPLC Principle,Instrumentation and Application
HPLC Principle,Instrumentation and Application
 
Thin Layer Chromatography and HighPerformance Thin Layer chromatography
Thin Layer Chromatography and HighPerformance Thin Layer chromatographyThin Layer Chromatography and HighPerformance Thin Layer chromatography
Thin Layer Chromatography and HighPerformance Thin Layer chromatography
 
NMR spectroscopy
NMR spectroscopy NMR spectroscopy
NMR spectroscopy
 
Abstract - Internal Waves Thesis
Abstract - Internal Waves Thesis Abstract - Internal Waves Thesis
Abstract - Internal Waves Thesis
 
Hplc & GC
Hplc & GCHplc & GC
Hplc & GC
 
Gas Chromatography and HPLC
Gas Chromatography and HPLCGas Chromatography and HPLC
Gas Chromatography and HPLC
 
Gravimetric methods of analysis [compatibility mode]
Gravimetric methods of analysis [compatibility mode]Gravimetric methods of analysis [compatibility mode]
Gravimetric methods of analysis [compatibility mode]
 
HPLC- Lite
HPLC- LiteHPLC- Lite
HPLC- Lite
 
Bioaccumulation and Biomagnification
Bioaccumulation and BiomagnificationBioaccumulation and Biomagnification
Bioaccumulation and Biomagnification
 
Abzyme(catalytic antibody)
Abzyme(catalytic antibody)Abzyme(catalytic antibody)
Abzyme(catalytic antibody)
 
Gravimetry
GravimetryGravimetry
Gravimetry
 
Ribozymes
RibozymesRibozymes
Ribozymes
 
Hplc
Hplc Hplc
Hplc
 
Hptlc vs tlc
Hptlc vs tlcHptlc vs tlc
Hptlc vs tlc
 
Gravimetry
GravimetryGravimetry
Gravimetry
 
DETECTORS USED IN GAS CHROMATOGRAPHY AND HPLC BY P.RAVISANKAR.
DETECTORS USED IN GAS CHROMATOGRAPHY AND HPLC BY P.RAVISANKAR.DETECTORS USED IN GAS CHROMATOGRAPHY AND HPLC BY P.RAVISANKAR.
DETECTORS USED IN GAS CHROMATOGRAPHY AND HPLC BY P.RAVISANKAR.
 
HPLC
HPLCHPLC
HPLC
 
HPLC - High Performance Liquid Chromatography
HPLC - High Performance Liquid ChromatographyHPLC - High Performance Liquid Chromatography
HPLC - High Performance Liquid Chromatography
 
Sample injection system in hplc
Sample injection system in hplcSample injection system in hplc
Sample injection system in hplc
 
Biorobotics
BioroboticsBiorobotics
Biorobotics
 

Similar to Hplc..

Similar to Hplc.. (20)

Royal ppt hplc
Royal ppt hplcRoyal ppt hplc
Royal ppt hplc
 
HPLC BY SR SAWARNI
HPLC BY SR SAWARNI HPLC BY SR SAWARNI
HPLC BY SR SAWARNI
 
HPLC (HIGH PERFOMANCE LIQUID CHROMATOGRAPHY)
HPLC (HIGH PERFOMANCE LIQUID CHROMATOGRAPHY)HPLC (HIGH PERFOMANCE LIQUID CHROMATOGRAPHY)
HPLC (HIGH PERFOMANCE LIQUID CHROMATOGRAPHY)
 
Hplc
HplcHplc
Hplc
 
High Performance Liquid Chromatography
High Performance Liquid ChromatographyHigh Performance Liquid Chromatography
High Performance Liquid Chromatography
 
Kaumil Hplc
Kaumil HplcKaumil Hplc
Kaumil Hplc
 
Hplc
HplcHplc
Hplc
 
High Performance Liquid Chromatography (HPLC)
High Performance Liquid Chromatography (HPLC)High Performance Liquid Chromatography (HPLC)
High Performance Liquid Chromatography (HPLC)
 
Hplc presentation
Hplc presentationHplc presentation
Hplc presentation
 
Hplc doc
Hplc docHplc doc
Hplc doc
 
Lc nmr
Lc nmrLc nmr
Lc nmr
 
HPLC -ARUN NIVAS V PERIYAR COLLEGE OF PHARMACEUTICAL SCIENCES, TRICHY-21.
HPLC -ARUN NIVAS V PERIYAR COLLEGE OF PHARMACEUTICAL SCIENCES, TRICHY-21.HPLC -ARUN NIVAS V PERIYAR COLLEGE OF PHARMACEUTICAL SCIENCES, TRICHY-21.
HPLC -ARUN NIVAS V PERIYAR COLLEGE OF PHARMACEUTICAL SCIENCES, TRICHY-21.
 
High performance liquid chromatography
High performance liquid chromatographyHigh performance liquid chromatography
High performance liquid chromatography
 
hplc
hplchplc
hplc
 
Hplc (1)
Hplc (1)Hplc (1)
Hplc (1)
 
HPLC
HPLCHPLC
HPLC
 
High performance liquid chromatography
High performance liquid chromatographyHigh performance liquid chromatography
High performance liquid chromatography
 
HPLC.pptx
HPLC.pptxHPLC.pptx
HPLC.pptx
 
Hplc
HplcHplc
Hplc
 
Hplc cont
Hplc contHplc cont
Hplc cont
 

Recently uploaded

Making communications land - Are they received and understood as intended? we...
Making communications land - Are they received and understood as intended? we...Making communications land - Are they received and understood as intended? we...
Making communications land - Are they received and understood as intended? we...
Association for Project Management
 
1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf
QucHHunhnh
 
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
ZurliaSoop
 

Recently uploaded (20)

Making communications land - Are they received and understood as intended? we...
Making communications land - Are they received and understood as intended? we...Making communications land - Are they received and understood as intended? we...
Making communications land - Are they received and understood as intended? we...
 
How to Manage Global Discount in Odoo 17 POS
How to Manage Global Discount in Odoo 17 POSHow to Manage Global Discount in Odoo 17 POS
How to Manage Global Discount in Odoo 17 POS
 
microwave assisted reaction. General introduction
microwave assisted reaction. General introductionmicrowave assisted reaction. General introduction
microwave assisted reaction. General introduction
 
How to Give a Domain for a Field in Odoo 17
How to Give a Domain for a Field in Odoo 17How to Give a Domain for a Field in Odoo 17
How to Give a Domain for a Field in Odoo 17
 
Grant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingGrant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy Consulting
 
Unit-IV- Pharma. Marketing Channels.pptx
Unit-IV- Pharma. Marketing Channels.pptxUnit-IV- Pharma. Marketing Channels.pptx
Unit-IV- Pharma. Marketing Channels.pptx
 
psychiatric nursing HISTORY COLLECTION .docx
psychiatric nursing HISTORY COLLECTION .docxpsychiatric nursing HISTORY COLLECTION .docx
psychiatric nursing HISTORY COLLECTION .docx
 
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
 
1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf
 
Mixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
Mixin Classes in Odoo 17 How to Extend Models Using Mixin ClassesMixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
Mixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
 
PROCESS RECORDING FORMAT.docx
PROCESS RECORDING FORMAT.docxPROCESS RECORDING FORMAT.docx
PROCESS RECORDING FORMAT.docx
 
How to Create and Manage Wizard in Odoo 17
How to Create and Manage Wizard in Odoo 17How to Create and Manage Wizard in Odoo 17
How to Create and Manage Wizard in Odoo 17
 
Kodo Millet PPT made by Ghanshyam bairwa college of Agriculture kumher bhara...
Kodo Millet PPT made by Ghanshyam bairwa college of Agriculture kumher bhara...Kodo Millet PPT made by Ghanshyam bairwa college of Agriculture kumher bhara...
Kodo Millet PPT made by Ghanshyam bairwa college of Agriculture kumher bhara...
 
Sociology 101 Demonstration of Learning Exhibit
Sociology 101 Demonstration of Learning ExhibitSociology 101 Demonstration of Learning Exhibit
Sociology 101 Demonstration of Learning Exhibit
 
Mehran University Newsletter Vol-X, Issue-I, 2024
Mehran University Newsletter Vol-X, Issue-I, 2024Mehran University Newsletter Vol-X, Issue-I, 2024
Mehran University Newsletter Vol-X, Issue-I, 2024
 
ICT role in 21st century education and it's challenges.
ICT role in 21st century education and it's challenges.ICT role in 21st century education and it's challenges.
ICT role in 21st century education and it's challenges.
 
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
 
ICT Role in 21st Century Education & its Challenges.pptx
ICT Role in 21st Century Education & its Challenges.pptxICT Role in 21st Century Education & its Challenges.pptx
ICT Role in 21st Century Education & its Challenges.pptx
 
Accessible Digital Futures project (20/03/2024)
Accessible Digital Futures project (20/03/2024)Accessible Digital Futures project (20/03/2024)
Accessible Digital Futures project (20/03/2024)
 
ComPTIA Overview | Comptia Security+ Book SY0-701
ComPTIA Overview | Comptia Security+ Book SY0-701ComPTIA Overview | Comptia Security+ Book SY0-701
ComPTIA Overview | Comptia Security+ Book SY0-701
 

Hplc..

  • 1. HPLC HigH Performance Liquid cHromatograPHy Presented by;- V.N.Raju B-Pharmacy 4th year Guided by: M. Alekhya Mam NNR school of pharmacy.. 1
  • 2. contentS:  Definition  Types of Separations  Principle of HPLC  Instrumentation of HPLC  Applications & uses of HPLC NNR school of pharmacy.. 2
  • 3. introduction HPLC:- High Performance Liquid Chromatography  a powerful tool in analysis, it yields high performance and high speed compared to traditional columns chromatography because of the forcibly pumped mobile phase.  HPLC is a chromatographic technique that can separate a mixture of compounds  It is used in biochemistry and analytical chemistry to identify, quantify and purify the individual components of a mixture. NNR school of pharmacy.. 3
  • 4. TYPES OF HPLC TECHNIQUES: A. Based on modes of chromatography 1. Normal phase mode 2.Reverse phase mode B. Based on principle of separation 1. Adsorption chromatography 2. Ion exchange chromatography 3. Ion pair chromatography 4.Size exclusion(or)Gel permeation chromatography 5. Affinity chromatography 6. Chiral phase chromatography NNR school of pharmacy.. 4
  • 5. C. Based on elution technique 1. Isocratic separation 2. Gradient separation D. Based on the scale of operation 1. Analytical HPLC 2. Preparative HPLC E. Based on the type of analysis 1. Qualitative analysis 2. Quantitative analysis NNR school of pharmacy.. 5
  • 6. PrinciPLe of HPLc  The principle of separation in normal phase mode and reverse phase mode is adsorption.  When a mixture of components are introduced into a HPLC column, they travel according to their relative affinities towards the stationary phase.  The component which has more affinity towards the adsorbent, travels slower.  The component which has less affinity towards the stationary phase travels faster.  Since no two components have the same affinity towards the stationary phase, the components are separated. NNR school of pharmacy.. 6
  • 7. INSTRUMENTATION A . Solvent delivery system(mobile phase) B. pumps C. injector D. column E . Detector: F. Recorder NNR school of pharmacy.. 7
  • 8. SOLVENT DELIVERY SYSTEM: The solvents or mobile phases used must be passed through the column at high pressure at about 1000 to 3000 psi. this is because as the particle size of stationary phase is few μ (5-10μ), the resistance to the flow of solvent is high. Hence such high pressure is recommended. The choice of mobile phase is very important in HPLC and the eluting power of the mobile phase is determined by its overall polarity, the polarity of the stationary phase and the nature of the sample components. In normal phase chromatography hexane, is octane, diethyl ether are the mobile phases. In reverse phase chromatography water, methanol, acetonitrile are the mobile phases. Mixing unit is used to mix the solvents in different proportions and pass through the column. There are 2 types of mixing units. 1. low pressure mixing chamber and 2. high pressure mixing chamber. Mixing of solvents is done either with a static mixer or a dynamic mixer. NNR school of pharmacy.. 8
  • 9. PUMPS: 2 types of pumps are there. 1. Syringe Pumps 2. Reciprocating Pumps Pumping systems: –Requirement:high P(6kpsi), pulse-free, constant F(0.1 10mL/min.),reproducibility(0.5%), resistant to corrosion – Displacement pump (Screw-driven syringe pump): pulse free, small capacity (250 mL), no gradient elution. Limited mobile phase capacity. Reciprocating pump: Most widely used. Small internal volume (35 ~ 400 μL), high-pressure (105 psi), gradient elution, constant flow. Need pulse damper. NNR school of pharmacy.. 9
  • 10. SAMPLE INJECTION SYSTEM: Several devices are available either for manual or auto injection of the sample. Different devices are: 1.Septum injectors:- the injection the sample through a rubber septum. The septum has to withstand high pressure. This is not common. 2. Stop flow injectors:- the flow of mobile phase is stopped for a while and the sample is injected through a valve device. 3. Rheodyne injectors (loop valve type):- it is most popular injection. this has a fixed volume loop like 20μl or 50μl or more injector has two modes NNR school of pharmacy.. 10
  • 11. COLUMNS: – Stainless steel tubing for high pressure – Heavy-wall glass or PEEK tubing for low P (< 600 psi) Column material:- The column are made up of either stainless steel, glass, poly-ethyiene and PEEK(poly ether ether ketone). Most widely used as a stainless steel which can withstand high pressure. Guard column: These is very small quantity of absorbend and improves the life of the analytical column. At also act as pre-filter to remove particulate matter, if any, and other material. Analytical column:- The most important part of the HPLC technique which decides the efficiency of separation. These are several stationary phase available depending upon the technique or mode of separation used. NNR school of pharmacy.. 11
  • 12. DETECTORS: Detectors used depends upon the property of the compounds to be separated. Different detectors available are: 1. Refractive index detectors 2. U.V detectors 3. Fluorescence detectors 4. Electro chemical detectors 5. Evaporative light scattering detectors 6. IR detectors 7. Photo diode array detector: NNR school of pharmacy.. 12
  • 13. 1.Refractive index detectors: This is a non specific or universal detector. This is not much used for analytical applications because of low sensitivity and specificity. NNR school of pharmacy.. 13
  • 14. 2. U.V detectors: This detector is based upon the light absorption characteristics of the sample. The two types of detectors available. 1.Fixed wavelength detector. in which the operates 254nm where most drug compounds absorb. 2.Variable wavelength detector. in which can operated from 190nm to 600nm. NNR school of pharmacy.. 14
  • 15. 3. Fluorescence detectors:  The detector is based on the fluorescent radiation emitted by some class of compounds.  The excitation wavelength and emission wavelength can be selected for each compound.  These detector more specificity and sensitivity. The detector is that some compounds are not fluorescent. NNR school of pharmacy.. 15
  • 16. 4.Electro chemical detectors: •Based on amperometric response of analyte to electrode usually held at constant potential. •If the analyte is electro active, can be highly sensitive since response is based on a surface phenomenon rather than a solution bulk property (e.g. UV-vis absorbance) •simplicity, convenience and wide-spreading application • Thin-layer flow cell of Teflon : 50μm thick, 1 ~ 5 μL volume • Indictor E: Pt, Au, C • Multi-electrode: simultaneous detection or sample purity indication. NNR school of pharmacy.. 16
  • 17. 5. Evaporative light scattering detectors: • Responds to any analyte that is significantly less volatile than the mobile phase. • Eluate is mixed with N2(g) and forms a fine mist. • Solvent (m.p.) evaporates leaving fine particles of analyte. The particles themselves are detected by light scattering. • Response is proportional to analyte mass. NNR school of pharmacy.. 17
  • 18. 6. IR detectors: • filter instrument or FTIR • Similar cell (V, 1.5 ~ 10 μL and b, 0.2 ~ 1.0mm) • Limit: no suitable solvent, special optics • FT-IR allows for spectrum records of flowing systems analogous to the diode array system. • Water/alcohols can be major interferences to solute detection • LOD 100 ng 7. Photo diode array detector: This is a recent one which is similar to U.V detector which operates from 190-600 nm. Allows for the recording of the entire spectrum of each solute as it passed through the diode array detector. The resulting spectra is a 3-D or three dimensional plot of Response Vs Time Vs Wave length. NNR school of pharmacy.. 18
  • 19. HPLC IMPORTANCE &APPLICATIONS Chemical Environmental Pharmaceuticals Consumer Products Bioscience proteins peptides nucleotides Clinical Determination of polystyrenes dyes phthalates Analysis of tetracyclines corticosteroids antidepressants barbiturates amino acids vitamins homocysteine lipids antioxidants sugars polyaromatic hydrocarbons Inorganic ions herbicides NNR school of pharmacy.. 19
  • 20. Other USES OF HPLC :- 1.This technique is used for chemistry and biochemistry research analyzing complex mixtures, purifying chemical compounds, developing processes for synthesizing chemical compounds, isolating natural products, or predicting physical properties. It is also used in quality control to ensure the purity of raw materials, to control and improve process yields, to quantify assays of final products, or to evaluate product stability and monitor degradation. 2. In addition, it is used for analyzing air and water pollutants, for monitoring materials that may jeopardize occupational safety or health, and for monitoring pesticide levels in the environment. Federal and state regulatory agencies use HPLC to survey food and drug products, for identifying confiscated narcotics or to check for adherence to label claims. NNR school of pharmacy.. 20
  • 21. THANK YOU… NNR school of pharmacy.. 21