This document outlines a PowerPoint presentation on nuclear magnetic resonance (NMR) spectroscopy. It covers the fundamentals of NMR including spin-spin coupling, instrumentation, solvents, chemical shifts, and 2D NMR techniques. Applications discussed include structure elucidation of organic compounds and biomolecules, as well as clinical uses such as MRI. Specific NMR experiments summarized are COSY, NOESY, and HETCOR.
It would be use full to All Needy People. It involve information about NMR Spectroscopy ( a spectroscopic techniques), factors influencing , proton NMR and their applications of NMR as well as Nuclear magnetic imaging.
This presentation gives you thorough knowledge about the IR Spectroscopy. This include basic principle, type of vibrations, factors influencing vibrational frequency, instrumentation and applications of IR Spectroscopy. This is the most widely used technique for identifying unknown functional group depending on the vibrational frequency.
It would be use full to All Needy People. It involve information about NMR Spectroscopy ( a spectroscopic techniques), factors influencing , proton NMR and their applications of NMR as well as Nuclear magnetic imaging.
This presentation gives you thorough knowledge about the IR Spectroscopy. This include basic principle, type of vibrations, factors influencing vibrational frequency, instrumentation and applications of IR Spectroscopy. This is the most widely used technique for identifying unknown functional group depending on the vibrational frequency.
IR SPECTROSCOPY, INTRODUCTION, PRINCIPLE, THEORY, FATE OF ABSORBED RADIATION, FERMI RESONANCE, FINGERPRINT REGION, VIBRATIONS, FACTORS AFFECTING ABSORPTION OF IR RADIATION, SAMPLING TECHNIQUES, APPLICATIONS OF IR SPECTROSCOPY.
Fourier transform infrared spectroscopy: advantage and disadvantage of conventional infrared spectroscopy, introduction to FTIR ,principle of FTIR, working, advantage, disadvantage and application of FTIR.
ION EXCHANGE CHROMATOGRAPHY
ByM.Vharshini
B.Sc. Bio Medical Science
Sri Ramachandra University
ION EXCHANGE CHROMATOGRAPHY
Ion-exchange chromatography is a process that allows the separation of ions and polar molecules based on their affinity to the ion exchanger.
It can be used for almost any kind of charged molecule including large proteins, small nucleotides and amino acids.
Cations or Anions can be separated using this method.
PRINCIPLE
It is based on the reversible electrostatic interaction of ions with the separation matrix (i.e.)
The separation occurs by reversible exchange of ions between the ions present in the solution and those present in the ion exchange resin.
CLASSIFICATION OF RESINS
According to the chemical nature they classified as-
1. Strong cation exchange resin
2. Weak cation exchange resin
3. Strong anion exchange resin
4. Weak anion exchange resin
According to the Source they can -
Natural resins : Cation - Zeolytes, Clay
Anion - Dolomite
Synthetic resins: Inorganic & Organic resins
◘Organic resins are polymeric resin matrix.
The resin composed of –
Polystyrene (sites for exchangeable functional groups)
Divinyl benzene(Cross linking agent)-offers stability.
Ion exchange resin should have following requirements
»It must be chemically stable.
»It should be insoluble in common solvents.
» It should have a sufficient degree of cross linking.
»The swollen resin must be denser than water.
»It must contain sufficient no. of ion exchange groups.
Physical properties of ion exchange resins
Cross linking:
It affects swelling & strength & solubility
Swelling:
When resin swells, polymer chain spreads apart
Polar solvents → swelling
Non-polar solvents → contraction
Swelling also affected electrolyte concentration.
Particle size and porosity
Increase in surface area & decrease in particle size will increase the rate of ion exchange.
Regeneration
Cation exchange resin are regenerated by treatment with acid, then washing with water.
Anion exchange resin are regenerated by treatment with NaOH, then washing with water until neutral.
EXPERIMENTAL SETUP OF ION EXCHANGE CHROMATOGRAPHY
Metrohm 850 Ion chromatography system
Instrumentation of ion exchange chromatography
PRACTICAL REQUIREMENTS
1.Column
» glass, stainless steel or polymers
2.Packing the column
» Wet packing method:
A slurry is prepared of the eluent with the stationary phase powder and then carefully poured into the column. Care must be taken to avoid air bubbles.
3.Application of the sample
After packing, sample is added to the top of the stationary phase, use syringe or pipette.
This layer is usually topped with a small layer of sand or with cotton or glass wool to protect the shape of the organic layer from the velocity of newly added eluent.
4.Mobile phase
Acids, alkalis, buffers…
6.Stationary phase
The ionic
IR SPECTROSCOPY, INTRODUCTION, PRINCIPLE, THEORY, FATE OF ABSORBED RADIATION, FERMI RESONANCE, FINGERPRINT REGION, VIBRATIONS, FACTORS AFFECTING ABSORPTION OF IR RADIATION, SAMPLING TECHNIQUES, APPLICATIONS OF IR SPECTROSCOPY.
Fourier transform infrared spectroscopy: advantage and disadvantage of conventional infrared spectroscopy, introduction to FTIR ,principle of FTIR, working, advantage, disadvantage and application of FTIR.
ION EXCHANGE CHROMATOGRAPHY
ByM.Vharshini
B.Sc. Bio Medical Science
Sri Ramachandra University
ION EXCHANGE CHROMATOGRAPHY
Ion-exchange chromatography is a process that allows the separation of ions and polar molecules based on their affinity to the ion exchanger.
It can be used for almost any kind of charged molecule including large proteins, small nucleotides and amino acids.
Cations or Anions can be separated using this method.
PRINCIPLE
It is based on the reversible electrostatic interaction of ions with the separation matrix (i.e.)
The separation occurs by reversible exchange of ions between the ions present in the solution and those present in the ion exchange resin.
CLASSIFICATION OF RESINS
According to the chemical nature they classified as-
1. Strong cation exchange resin
2. Weak cation exchange resin
3. Strong anion exchange resin
4. Weak anion exchange resin
According to the Source they can -
Natural resins : Cation - Zeolytes, Clay
Anion - Dolomite
Synthetic resins: Inorganic & Organic resins
◘Organic resins are polymeric resin matrix.
The resin composed of –
Polystyrene (sites for exchangeable functional groups)
Divinyl benzene(Cross linking agent)-offers stability.
Ion exchange resin should have following requirements
»It must be chemically stable.
»It should be insoluble in common solvents.
» It should have a sufficient degree of cross linking.
»The swollen resin must be denser than water.
»It must contain sufficient no. of ion exchange groups.
Physical properties of ion exchange resins
Cross linking:
It affects swelling & strength & solubility
Swelling:
When resin swells, polymer chain spreads apart
Polar solvents → swelling
Non-polar solvents → contraction
Swelling also affected electrolyte concentration.
Particle size and porosity
Increase in surface area & decrease in particle size will increase the rate of ion exchange.
Regeneration
Cation exchange resin are regenerated by treatment with acid, then washing with water.
Anion exchange resin are regenerated by treatment with NaOH, then washing with water until neutral.
EXPERIMENTAL SETUP OF ION EXCHANGE CHROMATOGRAPHY
Metrohm 850 Ion chromatography system
Instrumentation of ion exchange chromatography
PRACTICAL REQUIREMENTS
1.Column
» glass, stainless steel or polymers
2.Packing the column
» Wet packing method:
A slurry is prepared of the eluent with the stationary phase powder and then carefully poured into the column. Care must be taken to avoid air bubbles.
3.Application of the sample
After packing, sample is added to the top of the stationary phase, use syringe or pipette.
This layer is usually topped with a small layer of sand or with cotton or glass wool to protect the shape of the organic layer from the velocity of newly added eluent.
4.Mobile phase
Acids, alkalis, buffers…
6.Stationary phase
The ionic
This Presentation was prepared to help the readers to get the basic ideas for learning about the concepts of Quantum Numbers in Elementary Partcles ...
Silica Gel | Aluminium Oxide Column chroamtographySORBEAD INDIA
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Nuclear magnetic resonance (NMR) GULSHAN.pptxGULSHAN KUMAR
Nuclear Magnetic Resonance (NMR) Spectroscopy is a non-destructive analytical technique that is used to probe the nature and characteristics of molecular structure.
NMR, principle, chemical shift , valu,13 C, applicationTripura University
Nuclear magnetic resonance (NMR) is a physical phenomenon in which nuclei in a strong, constant magnetic field are perturbed by a weak oscillating magnetic field (in the near field [1]) and respond by producing an electromagnetic signal with a frequency characteristic of the magnetic field at the nucleus. This process occurs near resonance, when the oscillation frequency matches the intrinsic frequency of the nuclei, which depends on the strength of the static magnetic field, the chemical environment, and the magnetic properties of the isotope involved; in practical applications with static magnetic fields up to ca. 20 tesla, the frequency is similar to VHF and UHF television broadcasts (60–1000 MHz). NMR results from the specific magnetic properties of certain atomic nuclei. Nuclear magnetic resonance spectroscopy is widely used to determine the structure of organic molecules in solution and study molecular physics and crystals as well as non-crystalline materials. NMR is also routinely used in advanced medical imaging techniques, such as magnetic resonance imaging (MRI). The original application of NMR to condensed matter physics is nowadays mostly devoted to strongly correlated electron systems. It reveals large many-body couplings by fast broadband detection, and it should not be confused with solid-state NMR, which aims at removing the effect of the same couplings by magic angle spinning techniques.
Synthetic Fiber Construction in lab .pptxPavel ( NSTU)
Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
Students, digital devices and success - Andreas Schleicher - 27 May 2024..pptxEduSkills OECD
Andreas Schleicher presents at the OECD webinar ‘Digital devices in schools: detrimental distraction or secret to success?’ on 27 May 2024. The presentation was based on findings from PISA 2022 results and the webinar helped launch the PISA in Focus ‘Managing screen time: How to protect and equip students against distraction’ https://www.oecd-ilibrary.org/education/managing-screen-time_7c225af4-en and the OECD Education Policy Perspective ‘Students, digital devices and success’ can be found here - https://oe.cd/il/5yV
Palestine last event orientationfvgnh .pptxRaedMohamed3
An EFL lesson about the current events in Palestine. It is intended to be for intermediate students who wish to increase their listening skills through a short lesson in power point.
2. Presentation outline
•Introduction -Spin-spin Coupling
•Fundamental principles and theory -Coupling constant
Powerpoint Templates
Page 2
•Instrumentation -2D-NMR
•Solvents -NOE
•Chemical shift -NOESY
•Factors affecting chemical shift -COSY
•Interpretation of proton -Applications
NMR spectra
•Proton chemical shifts
3. Powerpoint Templates
Page 3
Introduction:-
Nuclear Magnetic Resonance (NMR) is a spectroscopy
technique which is based on the absorption of electromagnetic radiation
in the radio frequency region 4 to 900 MHz by nuclei of the
atoms.
Proton Nuclear magnetic resonance spectroscopy is one of the
most powerful tools for elucidating the number of hydrogen or proton
in the compound.
It is used to study a wide variety of nuclei:
• 1H 15N
• 19F 19F
•13C 31P
4. Powerpoint Templates
Page 4
Theory of NMR:-
Spin quantum number (I) is related to
the atomic and mass number of the nucleus.
Elements with either odd mass or odd atomic
number have the property of nuclear “spin”.
5. If an external magnetic field is applied, the number of
Powerpoint Templates
Page 5
possible orientations calculated by (2I+1).
Hydrogen has spin quantum number I=1/2 and
possible orientation is (2*1/2+1=2) two +1/2 and -1/2.
6. Principles of NMR
Powerpoint Templates
Page 6
The theory behind NMR comes
from the spin of a nucleus and it
generates a magnetic field. Without an
external applied magnetic field, the
nuclear spins are random in directions.
But when an external magnetic
field(Bo), is present the nuclei align
themselves either with or against the
field of the external magnet.
7. Powerpoint Templates
Page 7
If an external magnetic field is
applied, an energy transfer (ΔE) is
possible between ground state to
excited state.
when the spin returns to its
ground state level, the absorbed
radiofrequency energy is emitted at
the same frequency level.
The emitted radiofrequency
signal that give the NMR spectrum of
the concerned nucleus.
.
8. The emitted radio frequency is directly proportional
Powerpoint Templates
Page 8
to the strength of the applied field.
γBo
2П
v =
Bo= External magnetic field experienced by proton
γ = Magnetogyric ratio ( The ratio between the nuclear
magnetic moment and angular moment)
9. Powerpoint Templates
Page 9
NMR spectrum
The NMR spectrum is a plot of intensity of NMR
signals VS magnetic field (frequency) in reference to TMS
10. Powerpoint Templates
Page 10
NMR instrumentation
1. Sample holder 4. Sweep generator
2. Permanent magnet 5. Radio frequency transmitter
3. Magnetic coils 6. Radio frequency receiver
7.Read out systems
11. 1.Sample holder :- Glass tube with 8.5 cm long,0.3 cm
Powerpoint Templates
Page 11
in diameter
2.Permanent magnet :- It provides homogeneous magnetic
field at 60-100 MHZ
3.Magnetic coils :- These coils induce magnetic field
when current flows through them.
4.Sweep generator :- To produce the equal amount of
magnetic field pass through the sample
12. Powerpoint Templates
Page 12
5.Radio frequency :- A radio transmitter coil
transmitter that produces a short powerful
pulse of radio waves
6.Radiofrequency :- A radio receiver coil that detects Receiver
radio frequencies emitted as
nuclei relax to a lower energy level
7.Readout system :- A computer that analyses
and record the data
13. Powerpoint Templates
Page 13
Solvents used in NMR
The following solvents are normally used in which
hydrogen replaced by deuterium.
CCl4 - carbon tetrachloride
CS2 - carbon disulfide
CDCl3 - Deuteriochloroform
C6D6 - Hexa deuteriobenzene
D2O - Deuterium oxide
14. Powerpoint Templates
Page 14
Chemical shift
A chemical shift is defined as the difference in parts
per million (ppm) between the resonance frequency of the
observed proton and tetramethylsilane (TMS) hydrogens.
TMS is the most common reference compound in NMR,
it is set at δ=0 ppm
15. Powerpoint Templates
Page 15
Shielding of protons:-
High electron density around a nucleus shields the
nucleus from the external magnetic field and the signals are
upfield in the NMR spectrum
Deshielding of protons:-
Lower electron density around a nucleus deshields
the nucleus from the external magnetic field and the
signals are downfield in the NMR spectrum
16. Factors affecting chemical shift:-
Powerpoint Templates
Page 16
• Electronegative groups
• Magnetic anisotropy of π-systems
• Hydrogen bonding
Electronegative groups:-
Electronegative groups attached to the C-H system
decrease the electron density around the protons, and there is
less shielding (i.e.deshielding) and chemical shift increases
Compound Chemical shift
CH3I 2.16
CH3Br 2.65
CH3Cl 3.10
CH3F 4.26
17. Powerpoint Templates
Page 17
Magnetic anisotropy of π-systems:-
The word "anisotropic" means "non-uniform". So magnetic
anisotropy means that there is a "non-uniform magnetic field".
Electrons in π systems (e.g. aromatics, alkenes, alkynes, carbonyls
etc.) interact with the applied field which induces a magnetic field that
causes the anisotropy.
It causes both shielding and deshielding of protons.
Example:-Benzene
Hydrogen bonding:-
Protons that are involved in hydrogen bonding are typically change
the chemical shift values.
The more hydrogen bonding, the more proton is deshielded and
chemical shift value is higher.
18. Powerpoint Templates
Page 18
Proton NMR
The most common for of NMR is based on the
hydrogen-1 (1H), nucleus or proton.
It can give information about the structure of any
molecule containing hydrogen atoms.
21. Powerpoint Templates
Page 21
Proton NMR spectra of Ethanol:-
1H spectrum of Ethanol:-
3 types of proton
CH3,CH2,OH
22. Powerpoint Templates
Page 22
1H NMR spectra of Benzene
• Aromatic Hydrogen shows peak in the chemical shift scale 6.5-8.0 ppm.
• From the above spectrum Benzene has same type of protons and it shows
single peak at 7.26
23. Powerpoint Templates
Page 23
Interpretation of 1HNMR
spectra:-
Number of signals - Indicates how many "different kinds" of
protons are present.
Position of signals - Indicates something about (chemicalshift)
magnetic (electronic) environment of protons
Relative intensity of - Proportional to number of protons present
signals
Splitting of signals - Indicates the number of nearby nuclei
(spin spin coupling) usually protons
24. Powerpoint Templates
Page 24
n+1 rule:-
The multiplicity of signal is calculated by using n+1 rule.
This is one of the rule to predict the splitting of proton
signals. This is considered by the nearby hydrogen nuclei.
Therefore, n= Number of protons in nearby nuclei
Zero H atom as neighbour n+1=0+1=1(singlet)
One H atom as neighbour n+1=1+1 = 2(doublet)
Two H atom as neighbour n+1=2+1 =3(triplet)
25. Powerpoint Templates
Page 25
Spin-spin coupling (splitting)
The interaction between the spins of neighbouring
nuclei in a molecule may cause the splitting of NMR
spectrum.This is known as spin-spin coupling or splitting.
The splitting pattern is related to the number of
equivalent H-atom at the nearby nuclei.
Ethyl acetate
26. Powerpoint Templates
Page 26
Rules for spin-spin coupling:-
* Chemically equivalent protons do not show spin-spin coupling.
* Only nonequivalent protons couple.
* Protons on adjacent carbons normally will couple.
* Protons separated by four or more bonds will not couple.
27. Powerpoint Templates
Page 27
Coupling Constant
• The distance between the peaks in a given multiplet is
a measure of the splitting effect known as coupling constant.
• It is denoted by symbol J, expressed in Hz.
• Coupling constants are a measure of the effectiveness
of spin-spin coupling and very useful in 1H NMR of complex
structures.
28. Powerpoint Templates
Page 28
2D NMR
Basics of 2D NMR Experiment:-
Basis: Interaction of nuclear spins (1H with 1H, 1H with 13C, etc.) plotted in two
dimensions
• Normal spectra( 1D NMR) are plots of intensity Vs frequency.
• In 2D NMR intensity is plotted as function of two frequencies called f1 & f2
• In general, 2D’s can be divided into two types,
Homonuclear
Heteronuclear
• Each type can provide either through-bond
(COSY-type) or through space (NOESY-type)
coupling information
30. Powerpoint Templates
Page 30
2-D NMR –Signal is recorded as a function of two time
variables, t1 and t2.
•Rf pulses are generally applied during the preparation and
mixing periods.
31. Powerpoint Templates
Page 31
Applications of 2D NMR:-
Simplifies analysis of more complex or ambiguous
cases such as proteins.
Obtain structural information not accessible by one-dimensional
NMR methods.
34. COSY: Homonuclear correlated spectroscopy. Correlation
Powerpoint Templates
Page 34
between protons that are coupled to each other
TOCSY: Total Correlation Spectroscopy- Uses a spin-lock for
coherence transfer. During the spin-lock all protons of
a coupled system become "strongly coupled," leading to
cross peaks between all resonances of a coupled system.
HETCOR: Heteronuclear correlation, usually between 1H
and 13C resonances mediated by JC-H.
35. NOESY, ROESY: Proton-proton correlation mediated by
dipolar coupling (NOE effect). Correlation between
protons that are close in space. This is the single most
powerful NMR technique for determining the 3-
dimensional structure of molecules from
conformations of small molecules to the 3-dimensional
structure of small proteins.
HOESY: Heteronuclear Overhauser Effect Spectroscopy.
Correlation between protons and heteronuclei that are
close in space.
Powerpoint Templates
Page 35
36. Powerpoint Templates
Page 36
COSY experiment
•Correlation Spectroscopy
•Commonly used for regiochemical assignment
•Cross-peaks appear if spin coupling is present
•Protons that are separated by 2 or 3 bonds are usually detected
37. Powerpoint Templates
Page 37
Nuclear Overhauser Effect
• NOE Caused by dipolar coupling between nuclei.
• The local field at one nucleus is affected by the presence
of another nucleus. The result is a mutual modulation of
resonance frequencies.
N
S
N
S
38. Powerpoint Templates
Page 38
Nuclear Overhauser Effect
The intensity of the interaction is a function of the
distance between the nuclei according to the following equation.
I = A (1/r6)
I - intensity
A - scaling constant
r - internuclear distance
r1,2
1H 1H
1 2
r1,3 r2,3
1H
3
Arrows denote cross relaxation pathways
r1,2 - distance between protons 1 and 2
r2,3 - distance between protons 2 and 3
The NOE provides a link between an
experimentally measurable quantity, I, and
internuclear distance.
NOE is only observed up to 5 Å.
40. GENERAL APPLICATIONS OF
Powerpoint Templates
Page 40
NMR SPECTROSCOPY
NMR is used in biology to study the Biofluids, Cells, Per fused
organs and biomacromolecules such as Nucleic acids(DNA,
RNA), carbohydrates Proteins and peptides. And also
Labeling studies in biochemistry.
NMR is used in physics and physical chemistry to study High
pressure Diffusion ,Liquid crystals ,liquid Crystal solutions ,
Membranes, Rigid solids.
NMR is used in food science.
41. Contd…
NMR is used in pharmaceutical science to study
Pharmaceuticals and Drug metabolism.
NMR is used in chemistry to ;
• Determine the Enantiomeric purity.
• Elucidate Chemical structure of organic and
Powerpoint Templates
Page 41
NMR SPECTROSCOPY
ECTROSCOPY
SCOPY
inorganic compounds.
• Macromolecules –ligand interaction.
42. Powerpoint Templates
Page 42
1H-NMR SPECTROSCOPY
applications
1H widely used for structure elucidation.
Inorganic solids- In organic compounds are investigated by
solid state 1H-NMR.eg CaSO4⋅H2O.
Organic solids- Solid-state 1H NMR constitutes a powerful
approach to investigate the hydrogen-bonding and ionization
states of small organic compounds.
• Direct correlation with hydrogen-bonding lengths could
be demonstrated, e.g. for amino acid carboxyl groups.
43. Polymers and rubbers- Examine hydrogen bonding and acidity.
Peptides and proteins
Clinical and scientific research
In vivo NMR studies-
• concerned with 1H NMR
Powerpoint Templates
Page 43
spectroscopy of human brain.
• Many studies are concerned with altered levels
of metabolites in various brain diseases.
• To determine the spatial distribution of any
given metabolite detected spectroscopically IS
(image selected in vivo spectroscopy).
44. Application of NMR in medicine
MRI is specialist application of multi dimensional
Powerpoint Templates
Page 44
Fourier transformation NMR
Anatomical imaging.
Measuring physiological
functions
Flow measurements and
angiography.
Tissue perfusion studies.
Tumors
45. Powerpoint Templates
Page 45
References:-
Organic spectroscopy by William Kemp
Instrumental methods of chemical analysis by Chatwal
Instrumental methods of analysis by Willard
Wikipedia.org