Nuclear magnetic resonance (NMR) spectroscopy is an analytical technique that exploits the magnetic properties of atomic nuclei. It can be used to determine the structure of organic molecules and identify unknown compounds. NMR works by applying a strong magnetic field to align atomic nuclei, then applying a second radio frequency field to excite the nuclei and cause them to emit electromagnetic radiation that is detected and analyzed. The frequency of this radiation depends on the chemical environment of each nuclear species in the molecule. NMR provides detailed information about molecular structure and interactions.
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.
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.
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.
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.
NMR, principle and instrumentation by kk sahu sirKAUSHAL SAHU
Introduction
History
Principle
Assembly
Solvents
Chemical shift
Factors affecting chemical shift
2D NMR
NOE effect
NOESY
COSY
Application
Conclusion
References
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.
Nuclear magnetic resonance spectroscopy, most commonly known as NMR spectroscopy or magnetic resonance spectroscopy (MRS), is a spectroscopic technique to observe local magnetic fields around atomic nuclei.
About NMR, Fundamental Principle and Theory, Instrumentation, Solvent, Chemical Shift, Factor Affecting Chemical Shift, Spin-spin Coupling, Application of NMR, Reference, Acknowledgment
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Nuclear magnetic resonance spectroscopy is a powerful analytical technique used to characterize organic molecules by identifying carbon-hydrogen frameworks within molecules.
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Introduction to 1H-NMR Spectroscopy
NMR Spectroscopy is a powerful technique that can provide detailed information on the topology, dynamics and three-dimensional structure of molecules in solution and the solid state
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3. INTRODUCTION
• Nuclear Magnetic Resonance (NMR)
spectroscopy is an analytical technique used in
quality control and research for determining
the content and purity of a sample as well as
its molecular structure.
• It is a technique that exploits the magnetic
properties of nuclei.
• It determines the physical and chemical
properties of atoms or the molecules in which
they are contained. 3/26/2018 3
4. PRINCIPLE
• The principle behind NMR is that many nuclei have spin
and all nuclei are electrically charged. If an external
magnetic field is applied, an energy transfer is possible
between the base energy to a higher energy level
(generally a single energy gap). The energy transfer
takes place at a wavelength that corresponds to radio
frequencies and when the spin returns to its base level,
energy is emitted at the same frequency.
• The signal that matches this transfer is measured in
many ways and processed in order to yield an NMR
spectrum for the nucleus concerned.
3/26/2018 4
5. THEORY OF NMR
• When a charged particle such as a proton spins on
its axis, it creates a magnetic field. Thus, the
nucleus can be considered to be a tiny bar magnet.
• Normally, these tiny bar magnets are randomly
oriented in space. However, in the presence of a
magnetic field Bo, they are oriented with or against
this applied field.
• In a magnetic field (Bo), there are now two energy
states for a proton: a lower energy state with the
nucleus aligned in the same direction as Bo, and a
higher energy state in which the nucleus aligned
against Bo. 3/26/2018 5
6. CONTI…
• Thus, two variables characterize NMR: an
applied magnetic field B0, the strength of
which is measured in tesla (T), and the
frequency (υ) of radiation used for resonance,
measured in hertz (Hz), or megahertz (MHz).
3/26/2018 6
7. CONTI..
• The frequency needed for resonance and the
applied magnetic field strength are
proportionally related:
υ α BO
• The stronger the magnetic field, the larger
energy difference between two nuclear spin
states and higher the υ needed for the
resonance.
3/26/2018 7
8. TYPES OF SAMPLES
• Both liquid and solid type of samples can be
used in NMR spectroscopy.
• In solid-phase media, samples like crystals,
microcrystalline powders, gels, anisotropic
solutions, proteins, protein fibrils or all kinds
of polymers etc can be used.
• In liquid phase, different types of liquid
solutions, nucleic acid, protein, carbohydrates
etc. can be used.
3/26/2018 8
10. MAGNETIC PROPERTIES OF
NUCLEI
• Nuclei of certain isotopes posses a mechanical spin, or angular
momentum. The total angular momentum depends on nuclear spin or
spin number I, which has values of 0, 1/2, 1, 3/2,…
• The numerical value of spin number I is related to the mass number the
atomic number.
• Atomic charge is associated with atomic nucleus, the spinning of
nucleus gives rise to magnetic field whose axis is coincident with axis
of spin.
Mass no. Atomic no. Spin no. I
odd even or odd 1/2, 3/2, 5/2,…
even even 0
even odd 1,2,3,…
11. • Each nucleus for which I>0 will have
characteristic magnetic moment.
• Quantised system
• (2I+1) orientation.
• The nuclear magnet is oriented exactly
parallel or antiparallel with the applied
magnetic field. But because the nucleus
is spinning, its rotational axis draws out
circle perpendicular to the applied field.
This motion of nucleus is called as
precession.
12. NUCLEAR RESONANCE
• A proton in a static magnetic field may assume only two orientations
corresponding to energies +/- µH. The low energy orientation and
high energy orientation.
• The precessional frequency of the spinning nucleus is exactly equal to
the frequency of electromagnetic radiation necessary to induce a
transition from one nuclear spin state to another.
• When the frequency of rotating magnetic field and the frequency of
precessing nucleus becomes equal they are said to be in resonance.
• Spontaneous transition from higher energy state to lower energy state
is negligible in radio frequency region.
13. CHEMICAL SHIFT
• A chemical shift is defined as the difference in
parts per million (ppm) between resonance
frequency of observed proton to
tetraethylsilane (TMS) hydrogen.
• TMS is common reference standard used in
NMR, it is set at d=0 ppm.
14. • Shielding
High electron density around the nucleus shields the
nucleus from external magnetic field and the signals
are upfield in the NMR spectrum.
• Deshielding
Lower electron density around the nucleus deshields
the nucleus from external magnetic field and the
signals are downed in the NMR spectrum
15. FACTORS AFFECTING
CHEMICAL SHIFT
• Electronegative group
• Electronegative group attached to C-H system
decreases the electron density around the
proton and there is less shielding thus
chemical shift increases.
• Magnetic anisotrophy
• Hydrogen bonding
16. PROTON NMR
• The most common form of NMR is based on
the hydrogen nucleus.
• It can give information of any molecule
containing hydrogen atom.
18. Chemistry
By studying the peaks of nuclear magnetic resonance spectra, chemists
can determine the structure of many compounds.
It can be a very selective technique, distinguishing among many atoms
within a molecule or collection of molecules of the same type but which
differ only in terms of their local chemical environment.
NMR spectroscopy is used to unambiguously identify known and novel
compounds, and as such, is usually required by scientific journals for
identity confirmation of synthesized new compounds
The detailed investigation includes
Identification of structural isomers
Detection of hydrogen bonding
Detection of aromaticity
Detection of electronegative atom or group
Purity determination (w/w NMR)
NMR is primarily used for structural determination, however it can also be
used for purity determination, providing that the structure and molecular
weight of the compound is known. This technique requires the use of an
internal standard of a known purity
APPLICATIONS
19. Medicine
useful for identifying drug leads and determining the conformations of the
compounds bound to enzymes, receptors, and other proteins.
best known application of nuclear magnetic resonance to the general public is
magnetic resonance imaging for medical diagnosis and magnetic resonance
microscopy in research settings
MRI scanners use strong magnetic fields,
electric field gradients, and radio waves to
generate images of the organs in the body
In most medical applications, protons
(hydrogen atoms) in tissues containing water
molecules create a signal that is processed to
form an image of the body.
Each subatomic particle, such as a proton,
has a certain level of spin.
By adjusting the magnetic field surrounding
these subatomic particles, the spin rate is
altered
As the spin returns to normal, the MRI machine is able to determine its
location.
By locating a plethora of these subatomic particles, an image of tissues
can be developed, giving researchers a picture of the subject's
particular area
20. OTHER
APPLICATIONS Data acquisition in the petroleum industry
Another use for nuclear magnetic resonance is data acquisition
in the petroleum industry for petroleum and natural gas
exploration and recovery.
A borehole is drilled into rock and sedimentary strata into which
nuclear magnetic resonance logging equipment is lowered.
Nuclear magnetic resonance analysis of these boreholes is used
to measure rock porosity, estimate permeability from pore size
distribution and identify pore fluids (water, oil and gas)
To study molecular structure and interactions and for determining 3D
structure of proteins and other macromolecules. Moreover, in Polymer
production, cosmetics and food manufacturing
Process control
NMR has now entered the arena of real-time process control and
process optimization
different types of NMR analysis are utilized to provide real time
analysis of feeds and products in order to control and optimize
unit operation
21. PROS AND CONS OF NMR
SPECTROSCOPY
Advantages Disadvantages
Provides high resolution information Requires high concentrations of
soluble protein
Does not require a protein crystal
and is not affected by crystal
contacts
Can not be applied to large proteins
(800kD max so far)
Can be used to study flexible
proteins
Can not be used with amyloid fibril
conformational structure
22. REFERENCES
• John R. Dyer, Application of absorption
spectroscopy of organic compounds, 1965, PHI
learning Pvt. Ltd. , Page no 58-132.
• Chapter 13. Nuclear Magnetic Resonance
Spectroscopy. Jo Blackburn. Richland College,
Dallas, TX. Dallas County Community College
District.
• http://nptel.ac.in/courses/104103071/26 ,
accessed on 25 march 2018.
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