The attached narrated power point presentation offers a block level and an elementary level mathematical treatment of optical communication systems employing coherent detection. The material will immensely benefit KTU final year B Tech students who prepare for the subject EC 405, Optical Communications.
The attached narrated power point presentation attempts to explain the methods for measurement of length of Optical Fibers. The material will be useful for KTU final year students who prepare for the subject EC 405, Optical Communications.
Colorimeter and spectrophotometer, Mass Spectrometerprachann
It contains a brief knowledge on Introduction, Principle, Laws, Flow representation, Instrumentation, Applications
and Mass spectrometer
- Principle
- Instrumentation
The attached narrated power point presentation offers a block level and an elementary level mathematical treatment of optical communication systems employing coherent detection. The material will immensely benefit KTU final year B Tech students who prepare for the subject EC 405, Optical Communications.
The attached narrated power point presentation attempts to explain the methods for measurement of length of Optical Fibers. The material will be useful for KTU final year students who prepare for the subject EC 405, Optical Communications.
Colorimeter and spectrophotometer, Mass Spectrometerprachann
It contains a brief knowledge on Introduction, Principle, Laws, Flow representation, Instrumentation, Applications
and Mass spectrometer
- Principle
- Instrumentation
Nuclear Magnetic Resonance (NMR) is a RF technique that is able to detect any compound by sensing the excited resonance signals from atomic nuclei having non-zero spin. NQR is similar to NMR but the only difference is NMR needs a DC magnetic field and due to this its application in the field is limited. A FPGA based NQR spectrometer is designed using a single FPGA chip to perform the digital tasks required for NQR spectrometer. Design of Probe for NMR/NQR spectrometer is researched. Parallel tuned and series tuned Probes are discussed and simulated.14N NQR from NaNO2 is observed from spectrometer designed with parallel tuned probe.
Spectrophotometry is a method to measure how much a chemical substance absorbs light by measuring the intensity of light as a beam of light passes through sample solution. The basic principle is that each compound absorbs or transmits light over a certain range of wavelength
Design of fiber bragg grating (FBG) temperature sensor based on optical frequ...IJECEIAES
In this paper, the simulation of Fiber Bragg Grating (FBG) as a temperature sensor is conducted. The FBG temperature sensor is designed based on Optical Frequency Domain Reflectometer (OFDR) concept. A continuous wave (CW) laser is used as the optical source and it is transmitted to two FBGs. The two FBGs reflection spectra will produce a beat frequency that can be detected using a Radio Frequency (RF) spectrum analyzer. Any temperature change will shift Bragg wavelength, thus produce a shift for the beat frequency. In this work, an FBG with temperature sensitivity 10 pm/˚C is employed. It is found that by using this technique, a high-resolution temperature sensor can be designed with temperature resolution of 0.1˚C.
This presentation is about the monochromators and specifically their use in spectroscopy. It includes definition, principle, origin of term, principle, types, prism monochromator, diffraction grating monochromator, difference in both of them, their uses and working as well, optical filters and their uses and application.
A Monochromator is an optical device that transmits a mechanically selectable narrow band of wavelengths of light chosen from a wider range of wavelengths available at the input. And the unwanted radiations are blocked by the slit allowing only the desired ray to pass (monochromatic).
A dispersive element disperse the polychromatic light into several bands of single wavelength and then a slit is used which stops the unwanted bands of light, allowing only the desired monochromatic light to pass through its exit point.
By fixing the slit and rotating the dispersive element, the direction of the dispersed light is turned so that the colour of the resulting monochromatic light changes.
When electromagnetic radiation passes through a prism, it is refracted because the index of refraction of the prism material is different from that of air.
Shorter wavelengths are refracted more than longer wavelengths.
By rotation of the prism, different wavelengths of the spectrum can be made to pass through an exit slit and through the sample.
A prism works satisfactorily in the ultraviolet and visible regions and can also be used in the infrared region.
Because of its nonlinear dispersion, it works more effectively for the shorter wavelengths.
Glass prisms and lenses can be used in the visible region.
Quartz or fused silica must be used in the ultraviolet region.
The entire monochromatic compartment must be kept dry.
Nuclear Magnetic Resonance (NMR) is a RF technique that is able to detect any compound by sensing the excited resonance signals from atomic nuclei having non-zero spin. NQR is similar to NMR but the only difference is NMR needs a DC magnetic field and due to this its application in the field is limited. A FPGA based NQR spectrometer is designed using a single FPGA chip to perform the digital tasks required for NQR spectrometer. Design of Probe for NMR/NQR spectrometer is researched. Parallel tuned and series tuned Probes are discussed and simulated.14N NQR from NaNO2 is observed from spectrometer designed with parallel tuned probe.
Spectrophotometry is a method to measure how much a chemical substance absorbs light by measuring the intensity of light as a beam of light passes through sample solution. The basic principle is that each compound absorbs or transmits light over a certain range of wavelength
Design of fiber bragg grating (FBG) temperature sensor based on optical frequ...IJECEIAES
In this paper, the simulation of Fiber Bragg Grating (FBG) as a temperature sensor is conducted. The FBG temperature sensor is designed based on Optical Frequency Domain Reflectometer (OFDR) concept. A continuous wave (CW) laser is used as the optical source and it is transmitted to two FBGs. The two FBGs reflection spectra will produce a beat frequency that can be detected using a Radio Frequency (RF) spectrum analyzer. Any temperature change will shift Bragg wavelength, thus produce a shift for the beat frequency. In this work, an FBG with temperature sensitivity 10 pm/˚C is employed. It is found that by using this technique, a high-resolution temperature sensor can be designed with temperature resolution of 0.1˚C.
This presentation is about the monochromators and specifically their use in spectroscopy. It includes definition, principle, origin of term, principle, types, prism monochromator, diffraction grating monochromator, difference in both of them, their uses and working as well, optical filters and their uses and application.
A Monochromator is an optical device that transmits a mechanically selectable narrow band of wavelengths of light chosen from a wider range of wavelengths available at the input. And the unwanted radiations are blocked by the slit allowing only the desired ray to pass (monochromatic).
A dispersive element disperse the polychromatic light into several bands of single wavelength and then a slit is used which stops the unwanted bands of light, allowing only the desired monochromatic light to pass through its exit point.
By fixing the slit and rotating the dispersive element, the direction of the dispersed light is turned so that the colour of the resulting monochromatic light changes.
When electromagnetic radiation passes through a prism, it is refracted because the index of refraction of the prism material is different from that of air.
Shorter wavelengths are refracted more than longer wavelengths.
By rotation of the prism, different wavelengths of the spectrum can be made to pass through an exit slit and through the sample.
A prism works satisfactorily in the ultraviolet and visible regions and can also be used in the infrared region.
Because of its nonlinear dispersion, it works more effectively for the shorter wavelengths.
Glass prisms and lenses can be used in the visible region.
Quartz or fused silica must be used in the ultraviolet region.
The entire monochromatic compartment must be kept dry.
spectroscopy, classification of spectroscopy, history, UV-VIS spectrophotometer, principle, beer lambert law instrumentation, detector, single beam, double beam in time, double beam in space, application, merits, and demerits
A spectrophotometer is an instrument that measures the amount of light absorbed by a sample. Spectrophotometer techniques are used to measure the concentration of solutes in solution by measuring the amount of the light that is absorbed by the solution in a cuvette placed in the spectrophotometer .
Ultraviolet spetroscopy by Dr. Monika Singh part-1 as per PCI syllabusMonika Singh
UV Visible spectroscopy as per PCI syllabus: Electronic transitions, chromophores, auxochromes, spectral shifts, solvent effect on absorption spectra, Beer and Lambert’s law, Derivation and deviations.
New Directions in Targeted Therapeutic Approaches for Older Adults With Mantl...i3 Health
i3 Health is pleased to make the speaker slides from this activity available for use as a non-accredited self-study or teaching resource.
This slide deck presented by Dr. Kami Maddocks, Professor-Clinical in the Division of Hematology and
Associate Division Director for Ambulatory Operations
The Ohio State University Comprehensive Cancer Center, will provide insight into new directions in targeted therapeutic approaches for older adults with mantle cell lymphoma.
STATEMENT OF NEED
Mantle cell lymphoma (MCL) is a rare, aggressive B-cell non-Hodgkin lymphoma (NHL) accounting for 5% to 7% of all lymphomas. Its prognosis ranges from indolent disease that does not require treatment for years to very aggressive disease, which is associated with poor survival (Silkenstedt et al, 2021). Typically, MCL is diagnosed at advanced stage and in older patients who cannot tolerate intensive therapy (NCCN, 2022). Although recent advances have slightly increased remission rates, recurrence and relapse remain very common, leading to a median overall survival between 3 and 6 years (LLS, 2021). Though there are several effective options, progress is still needed towards establishing an accepted frontline approach for MCL (Castellino et al, 2022). Treatment selection and management of MCL are complicated by the heterogeneity of prognosis, advanced age and comorbidities of patients, and lack of an established standard approach for treatment, making it vital that clinicians be familiar with the latest research and advances in this area. In this activity chaired by Michael Wang, MD, Professor in the Department of Lymphoma & Myeloma at MD Anderson Cancer Center, expert faculty will discuss prognostic factors informing treatment, the promising results of recent trials in new therapeutic approaches, and the implications of treatment resistance in therapeutic selection for MCL.
Target Audience
Hematology/oncology fellows, attending faculty, and other health care professionals involved in the treatment of patients with mantle cell lymphoma (MCL).
Learning Objectives
1.) Identify clinical and biological prognostic factors that can guide treatment decision making for older adults with MCL
2.) Evaluate emerging data on targeted therapeutic approaches for treatment-naive and relapsed/refractory MCL and their applicability to older adults
3.) Assess mechanisms of resistance to targeted therapies for MCL and their implications for treatment selection
Flu Vaccine Alert in Bangalore Karnatakaaddon Scans
As flu season approaches, health officials in Bangalore, Karnataka, are urging residents to get their flu vaccinations. The seasonal flu, while common, can lead to severe health complications, particularly for vulnerable populations such as young children, the elderly, and those with underlying health conditions.
Dr. Vidisha Kumari, a leading epidemiologist in Bangalore, emphasizes the importance of getting vaccinated. "The flu vaccine is our best defense against the influenza virus. It not only protects individuals but also helps prevent the spread of the virus in our communities," he says.
This year, the flu season is expected to coincide with a potential increase in other respiratory illnesses. The Karnataka Health Department has launched an awareness campaign highlighting the significance of flu vaccinations. They have set up multiple vaccination centers across Bangalore, making it convenient for residents to receive their shots.
To encourage widespread vaccination, the government is also collaborating with local schools, workplaces, and community centers to facilitate vaccination drives. Special attention is being given to ensuring that the vaccine is accessible to all, including marginalized communities who may have limited access to healthcare.
Residents are reminded that the flu vaccine is safe and effective. Common side effects are mild and may include soreness at the injection site, mild fever, or muscle aches. These side effects are generally short-lived and far less severe than the flu itself.
Healthcare providers are also stressing the importance of continuing COVID-19 precautions. Wearing masks, practicing good hand hygiene, and maintaining social distancing are still crucial, especially in crowded places.
Protect yourself and your loved ones by getting vaccinated. Together, we can help keep Bangalore healthy and safe this flu season. For more information on vaccination centers and schedules, residents can visit the Karnataka Health Department’s official website or follow their social media pages.
Stay informed, stay safe, and get your flu shot today!
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Report Back from SGO 2024: What’s the Latest in Cervical Cancer?bkling
Are you curious about what’s new in cervical cancer research or unsure what the findings mean? Join Dr. Emily Ko, a gynecologic oncologist at Penn Medicine, to learn about the latest updates from the Society of Gynecologic Oncology (SGO) 2024 Annual Meeting on Women’s Cancer. Dr. Ko will discuss what the research presented at the conference means for you and answer your questions about the new developments.
These lecture slides, by Dr Sidra Arshad, offer a quick overview of physiological basis of a normal electrocardiogram.
Learning objectives:
1. Define an electrocardiogram (ECG) and electrocardiography
2. Describe how dipoles generated by the heart produce the waveforms of the ECG
3. Describe the components of a normal electrocardiogram of a typical bipolar leads (limb II)
4. Differentiate between intervals and segments
5. Enlist some common indications for obtaining an ECG
Study Resources:
1. Chapter 11, Guyton and Hall Textbook of Medical Physiology, 14th edition
2. Chapter 9, Human Physiology - From Cells to Systems, Lauralee Sherwood, 9th edition
3. Chapter 29, Ganong’s Review of Medical Physiology, 26th edition
4. Electrocardiogram, StatPearls - https://www.ncbi.nlm.nih.gov/books/NBK549803/
5. ECG in Medical Practice by ABM Abdullah, 4th edition
6. ECG Basics, http://www.nataliescasebook.com/tag/e-c-g-basics
These simplified slides by Dr. Sidra Arshad present an overview of the non-respiratory functions of the respiratory tract.
Learning objectives:
1. Enlist the non-respiratory functions of the respiratory tract
2. Briefly explain how these functions are carried out
3. Discuss the significance of dead space
4. Differentiate between minute ventilation and alveolar ventilation
5. Describe the cough and sneeze reflexes
Study Resources:
1. Chapter 39, Guyton and Hall Textbook of Medical Physiology, 14th edition
2. Chapter 34, Ganong’s Review of Medical Physiology, 26th edition
3. Chapter 17, Human Physiology by Lauralee Sherwood, 9th edition
4. Non-respiratory functions of the lungs https://academic.oup.com/bjaed/article/13/3/98/278874
Explore natural remedies for syphilis treatment in Singapore. Discover alternative therapies, herbal remedies, and lifestyle changes that may complement conventional treatments. Learn about holistic approaches to managing syphilis symptoms and supporting overall health.
- Video recording of this lecture in English language: https://youtu.be/lK81BzxMqdo
- Video recording of this lecture in Arabic language: https://youtu.be/Ve4P0COk9OI
- Link to download the book free: https://nephrotube.blogspot.com/p/nephrotube-nephrology-books.html
- Link to NephroTube website: www.NephroTube.com
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Hemodialysis: Chapter 3, Dialysis Water Unit - Dr.Gawad
UV Visible spectroscopy Instrumentation by Dr. Monika Singh part-2 as per PCI syllabus
1. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 1
by
Dr. MONIKA SINGH
(M.Pharm, PhD)
ULTRA VIOLET
SPECTROSCOPY
(Instrumentation)
BP701T-Instrumental Method of
Analysis
1
Electromagnetic Spectrum.
Wavelength, , cm
frequency, , (cycles/sec)
-ray
-ray
ultraviolet
visible
infrared
microwave
radio
Power
violet
blue
green
yellow
orange
red
visible region
400 500 600 700 800
1020
1018
1016
1014
1012
1010
108
106
104
102
10-10
10-8
10-6
10-4
10-2
1 102
104
106
108
Wavelength, , nm
BP701T-Instrumental Method of
Analysis
2
2. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 2
T=I/Io
A= - log T = -log (I/Io)
Calibration curve
BP701T-Instrumental Method of
Analysis
3
Ultra Violet Spectrometry
The absorption of ultraviolet radiation by
molecules is dependent upon the electronic
structure of the molecule. So the ultraviolet
spectrum is called electronic spectrum.
BP701T-Instrumental Method of
Analysis
4
3. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 3
BP701T-Instrumental Method of
Analysis
5
Instrumentation
Four parts in a
spectroscopic
instrument.
• Light sources
• Monochromators
• Sample cell
• Detectors
There are many variations and hybrids of spectroscopic
techniques, but all follow the same basic theories.
BP701T-Instrumental Method of
Analysis
6
5. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 5
UV Radiation sources
• Deuterium and Hydrogen lamps
• Tungsten filament lamps / Incandescent
Lamps
• Xenon Arc lamps
• Hollow cathode lamps
• Mercury Arc Lamp
BP701T-Instrumental Method of
Analysis
9
1. Deuterium & Hydrogen Lamps (UV range)
D2 + Eelect D*
2 D’ + D’’ + h (light produced)
Excited state
- continuous source, broad
range of frequencies
-based on electric excitation
of H2 or D2 at Low pressure
-Mechanical slit is present to
Narrow the discharge
- Radiation ball is formed
towards Cathode.
In presence of arc, some of the
electrical energy is absorbed by
D2 (or H2) which results in the
disassociation of the gas and
release of light
BP701T-Instrumental Method of
Analysis
10
6. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 6
- h will vary continuously from ~ 160nm up to 375nm (UV range) due
to different frequencies going into D’ and D’’
- need to make cell from quartz since glass absorbs light at # 350 nm
- cost ~ $350-$500
Intensity Spectrum Of Deuterium Arc LampBP701T-Instrumental Method of
Analysis
11
2. Tungsten Filament Lamp (Vis – Near IR)
or Incandescent Lamp
- continuous source, broad range of frequencies
- based on black body radiation:
heat solid filament to glowing, light emitted will be
characteristic of temperature more than nature of
solid filament
Low pressure (vacuum)
Tungsten Filament
BP701T-Instrumental Method of
Analysis
12
7. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 7
Halogen Lamp
BP701T-Instrumental Method of
Analysis
13
- need high temperatures to get high light intensity (power) and low max
- Typical Tungsten lamp T ~ 2870K
- range: 350 – 2500 nm
- cost ~ $10-15
Temperature Dependence of
BP701T-Instrumental Method of
Analysis
14
8. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 8
3. Xenon Arc Lamps (UV – Vis Range)
- Continuous source, broad range of frequencies
- range: 250 – 600 nm
- works by passage of current through Xe, causes thermal excitation
- Blackbody emission
- Gives Very intense radiation over frequency range.
(developed for search lights during WW-II)
- problems: - higher heat
- more stray light
- higher cost
- shorter lifetimes
4. Mercury Arc Lamps
BP701T-Instrumental Method of
Analysis
15
BP701T-Instrumental Method of
Analysis
16
9. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 9
Wavelength selectors
• Wavelength filters
• Absorption
• Interference
• Monochromators
• Prism
• Grating
BP701T-Instrumental Method of
Analysis
17
Why separate wavelengths?
• Each compound absorbs different colors
(energies) with different probabilities
(absorbtivity)
• Selectivity
• Quantitative adherence to Beer’s Law
A = abc
• Improves sensitivity
BP701T-Instrumental Method of
Analysis
18
10. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 10
Wavelength Dispersion
• Prisms (nonlinear, range
depends on refractive
index)
• Gratings (linear, Bragg’s
Law, depends on spacing
of scratches, overlapping
orders interfere)
• Interference filters
(inexpensive)
BP701T-Instrumental Method of
Analysis
19
Filters
(inexpensive alternative)
• Filters are wavelength selectors that allow
narrow bandwidths of radiation to pass through.
They can be divided into four main categories:
absorption filters, cut-off filters,
interference filters, and interference wedges.
• Absorption type
- glass with dyes to adsorb chosen colors
• Interference filters
- multiple reflections between 2 parallel
reflective surfaces - only certain wavelengths
have positive interferences - temperature effects
spacing between surfacesBP701T-Instrumental Method of
Analysis
20
11. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 11
- material remove undesired ’s by absorbing them.
- typically made from colored glass or dye suspended in gelatin
between glass plates.
- fixed , much energy lost due to absorption.
- cheap
wide range of allowed through.
can combine filters with different range.
typical bandpass (30-250 nm).
Effective bandwidth for two types of
filters and the result of combining
filters.
Absorption Filters
bandwidth
A band-pass filter or bandpass filter
(BPF) is a device
that passes frequencies within a
certain range and rejects (attenuates)
frequencies outside that range.
BP701T-Instrumental Method of
Analysis
21
BP701T-Instrumental Method of
Analysis
22
12. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 12
BP701T-Instrumental Method of
Analysis
23
- made up of thin layers of metal and dielectric (eq. CaF2 ,MgF2 , SiO)
material sandwiched between glass plates, partially reflecting metal films
- dielectric material is of uniform, known thickness.
- metal acts as partial mirror
Interference Filters
BP701T-Instrumental Method of
Analysis
24
13. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 13
As light enters, some goes through but some is
reflected. The distance the light travels before
it exits generates constructive and destructive
interference on the other side of the filter.
’s transmitted through filter:
N = 2dh
h – refractive index
d – thickness of dielectric
N – integer
- wavelength
Bandpass can be 1-20nm. (narrow), but filter is fixed at given value as
much intensity is lost due to reflection
BP701T-Instrumental Method of
Analysis
25
Figure Effective bandwidths for two types of filters.
BP701T-Instrumental Method of
Analysis
26
14. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 14
Wedge filter
• It consist of wedge shaped
slab of dielectric depositing
between semi reflecting
metallic layers.
• Peak transmission =50-60%
• Drawback: Incident radiation
are highly convergent or
divergent.
BP701T-Instrumental Method of
Analysis
27
Monochromator
- separates frequencies () from polychromatic light in time
or space.
- allows only certain ’s to be selected and used.
Dispersing Monochromator:
Prism: based on refraction of
light and fact that different ’s
have different values of
refraction index (hi) in a medium.
Grating Monochromator: based on
diffraction of light (constructive and
deconstructive interference)
a) Transmission Grating: groves or
slits placed or made on a
transparent material.
b) Reflection Grating: most
commonly used
Refraction is the change in direction of waves that occurs when waves travel from one medium to another. Refraction is always
accompanied by a wavelength and speed change.
Diffraction is the bending of waves around obstacles and openings. The amount of diffraction increases with increasing wavelength.
BP701T-Instrumental Method of
Analysis
28
15. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 15
Monochromator
• Entrance slit - provides narrow optical image
• Collimator - makes light hit dispersive
element at same angle
• Dispersing element – Prism/Grating
• Collimator/Focusing element - image on slit
• Exit slit - isolates desired color to exit
BP701T-Instrumental Method of
Analysis
29
Grating
prism
BP701T-Instrumental Method of
Analysis
30
16. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 16
Dispersing Monochromator:
Prism: based on refraction of light and fact that different ’s
have different values of refraction index (hi) in a medium.
BP701T-Instrumental Method of
Analysis
31
BP701T-Instrumental Method of
Analysis
32
17. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 17
Dispersion Curve: change in hi as a function of
Normally want to work in areas of normal dispersions for prisms.
Anomalous dispersion occurs near where substance itself absorbs light.
BP701T-Instrumental Method of
Analysis
33
h1sinq1 = h2sinq2Recall Snell’s Law of Refraction
Also, remember that no refraction occurs if light at normal or q1 = 0
So, light must hit prism at an angle.
Most common is a 60o prism
(glass or quartz).
BP701T-Instrumental Method of
Analysis
34
18. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 18
Figure Dispersion by a prism: (a) Quartz Cornu types
(b) Littrow type.
BP701T-Instrumental Method of
Analysis
35
Bunsen Prism:
Important Components:
i) Entrance slit
ii) Collimating lens or mirror – makes radiation parallel before hitting
dispersing element
iii) Grating or Prism
iv) Focusing Lens or mirror – to focus light of desired on exit slit.
BP701T-Instrumental Method of
Analysis
36
19. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 19
Figure Echelle grating: i = angle of incidence; r = angle
of reflection; d = groove spacing.
Grating
BP701T-Instrumental Method of
Analysis
37
BP701T-Instrumental Method of
Analysis
38
20. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 20
Transmission Grating:
Order of Interference (n): n = d sinq
Different ’s will have constructive
interference at different points.
Can select desired by letting light
at different points into instrument.
Groves or slits placed or made on a transparent material.
BP701T-Instrumental Method of
Analysis
39
Reflection Grating:
Now, spacing of slits (d) is distance from one groove to next.
Typically have 300-2000 grooves/mm.
Constructive and deconstructive interference occurs because
light travels different distances when reflected from each grating
Angle at which constructive interference occurs is now given by:
n = d(sin i+ sin r)
i : incident angle
r : diffraction angle
most commonly used
- grooved surface with
reflective coating (Al, Au,
Pt)
BP701T-Instrumental Method of
Analysis
40
21. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 21
Czerney-Turner Grating:
Important Components:
i) Entrance slit
ii) Collimating lens or mirror – makes radiation parallel before hitting
dispersing element
iii) Grating or Prism
iv) Focusing Lens or mirror – to focus light of desired on exit slit.BP701T-Instrumental Method of
Analysis
41
Resolving Power of Grating
R = ----- = n N
d
where N => number of lines
illuminated by the radiation from
entrance slit
BP701T-Instrumental Method of
Analysis
42
22. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 22
Resolving Power of Prism
R => resolving power
dn
R = ------ = b -----
d d
where b=> length of prism base
BP701T-Instrumental Method of
Analysis
43
BP701T-Instrumental Method of
Analysis
Gratings vs. Prisms
Advantages
Gratings
– dispersion nearly constant w/ wavelength
– simplier monochromator
– better dispersion for same size
Prisms
– cheaper in the past
44
23. Dr. MONIKA SINGH 22-09-2020
BP701T INSTRUMENTAL METHODS
OF ANALYSIS 23
BP701T-Instrumental Method of
Analysis
Gratings vs. Prisms
Disadvantages
Gratings
– stray radiation
– higher order spectra
Prisms
– larger
– may be unstable to atmosphere of lab
45
BP701T-Instrumental Method of
Analysis
46
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Cuvette:
Ordinary glass is partially transparent to UV but is opaque
to shorter wavelengths while Silica or quartz glass,
depending on quality, can be transparent even to vacuum
UV wavelengths. Ordinary window glass passes about 90%
of the light above 350 nm, but blocks over 90% of the light
below 300 nm.
1. Use quartz cuvettes for UV experiments.
2. Use quartz, glass, or plastic for visible wavelengths.
SAMPLE CELL
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DETECTORS
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Detectors
For sensitive detector we need a small work
function - alkali metals are best
• Phototube
• Photovoltaic cell
• Photomultiplier tube - amplification to improve
sensitivity (10 million)
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Photo Tube
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Process:
- photoemission material (Cs2O) ejects an e- when “hit” with a photon
(photoelectric effect).
- potential of 90V across cathode(-) and anode(+). As light “hits” cathode, e-
are emitted from cathode and attracted to anode. Produces current that can be
measured.
- current % number of photons.
- smaller current then photovoltaic cell, but can be amplified because of larger
resistance.
- 90V difference sufficient to collect all e- produced (working at saturation).
- various photoemission material (sensitive to certain photon ’s)
Advantages: sensitive, signal easily amplified.
Disadvantages: some dark current (from thermal e- emission & natural decay of 40K in glass
housing
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Photodiodes
also c/d Photovoltaic cell (Barrier-Layer Cell)
• It is semiconductor that conducts in one
direction only when light is present
• Rugged and small
• Photodiode arrays - allows observation of a
number of different locations (wavelengths)
simultaneously
• Somewhat less sensitive than PMT
In-Ga-As photodiode
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Process:
light of sufficiently high energy passes through the thin
transparent silver layer and hits selenium causing electrons to
be released which move across barrier toward silver layer
(electropositive) and collected at iron layer to neutralize
selenium layer.
- Current produced is proportional to photons hitting surface
- Maximum response at 550 nm (10% at 350-750 nm ~ same as
human eye).
Advantage: cheap, rugged, no external power source, good for portable instruments.
Disadvantage: not very sensitive, shows fatigue (decrease in response with continued
illumination), difficult to amplify signal-small resistance (Ohm’s law: I=(V/R)).
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n+
R
Cathode
Guard ring
Anode
Depletion region
P-type Si bulk
n+
AR coating
IpVo
V B
PIN Photodiode with Guard Ring
to Reduce Dark Current
hh
P i
p+ diffusion
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Analysis
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Reverse-bias: no current flows
Semiconductor material – conducts current only under certain conditions
free electrons inside the N-type material need some
extra energy to overcome the repulsion of the P-type's
acceptor atoms.
- Light shining on the silicon diode provides the energy needed for the
electrons to travel into the P region.
- Flow of current is related to intensity of light.
Silicon Diode or Photodiode detectors
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S i3 N 4
n G a 0 .4 7 In 0 .5 3 A s
P h o to c o n d u c to r
In P
S e m i-in s u la tin g s u b s tra te
P i (W /c m 2
)
A GaInAs Photoconductor for = 1.3 m
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Spectral sensitivity is a function
of photocathode material• Ag-O-Cs mixture gives broader range but less efficiency
• Na2KSb (trace of Cs)has better response over narrow range
• Max. response is 10% of one per photon (quantum efficiency)
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Dynodes – all covered with photoemissive material
Photo-multiplier Tube (PMT)
This is similar to the photo-emissive cell but has a tube containing positive
electrodes coated with an electron emitting material.
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Photomultiplier
dynodes of
CuO.BeO.CsSb
or GaP.Cs
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Process:
a) light hits cathode and e- emitted.
b) an emitted e- is attracted to electrode #1
(dynode 1), which is 90V more positive.
Causes several more e- to be emitted.
c) these e- are attracted to dynode 2, which is
90V more positive then dynode 1, emitting
more e-.
d) process continues until e- are collected at
anode after amplification at 9 dynodes.
e) overall voltage between anode and cathode
is 900V.
f) one photon produces 106 – 107 electrons.
g) current is amplified and measured
Advantages: very sensitive to low intensity, very fast response.
Disadvantages: need high voltage power supply, intense light damages
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Wavelength dependence in
spectrometer
• Source
• Monochromator
• Sample
• Detector
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Common UV-vis instuments
cuvette
Tungsten
Filament (vis)
slit
Photomultiplier
tube
monochromator
Deuterium lamp
Filament (UV)
slit
Scanning Instrument
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Analysis
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HPLC-UV
Mobile
phase
HPLC
Pump
syringe
6-port
valve
Sample
loop
HPLC
column
UV
detector
Solvent
wasteBP701T-Instrumental Method of
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Instrumentation
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Applications of UV- Visible
Spectroscopy
• 1. Detection of Impurities
UV absorption spectroscopy is one of the best
methods for determination of impurities in organic
molecules. Additional peaks can be observed due
to impurities in the sample and it can be compared
with that of standard raw material. By also
measuring the absorbance at specific wavelength,
the impurities can be detected.
Benzene appears as a common impurity in
cyclohexane. Its presence can be easily detected by
its absorption at 255 nm.
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• 2. Structure elucidation of organic compounds.
UV spectroscopy is useful in the structure elucidation of
organic molecules, the presence or absence of unsaturation,
the presence of hetero atoms.
From the location of peaks and combination of peaks, it can
be concluded that whether the compound is saturated or
unsaturated, hetero atoms are present or not etc.
• 3. Quantitative analysis
UV absorption spectroscopy can be used for the quantitative
determination of compounds that absorb UV radiation. This
determination is based on Beer’s law which is as follows.
A = log I0 / It = log 1/ T = – log T = abc = εbc
Where ε is extinction co-efficient, c is concentration, and b is
the length of the cell that is used in UV spectrophotometer.
Other methods for quantitative analysis are as follows.
a. calibration curve method
b. simultaneous multicomponent method
c. difference spectrophotometric method
d. derivative spectrophotometric method
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• 4. Qualitative analysis
UVabsorption spectroscopy can characterize those types of
compounds which absorbs UV radiation. Identification is done
by comparing the absorption spectrum with the spectra of
known compounds.
UV absorption spectroscopy is generally used for
characterizing aromatic compounds and aromatic olefins.
• 5. Dissociation constants of acids and bases.
PH = PKa + log [A-] / [HA]
From the above equation, the PKa value can be calculated if
the ratio of [A-] / [HA] is known at a particular PH. and the ratio
of [A-] / [HA] can be determined spectrophotometrically from
the graph plotted between absorbance and wavelength at
different PH values.
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• 6. Chemical kinetics
Kinetics of reaction can also be studied using UV
spectroscopy. The UV radiation is passed through the
reaction cell and the absorbance changes can be
observed.
• 7. Quantitative analysis of pharmaceutical substances
Many drugs are either in the form of raw material or in the
form of formulation. They can be assayed by making a
suitable solution of the drug in a solvent and measuring
the absorbance at specific wavelength.
Diazepam tablet can be analyzed by 0.5% H2SO4 in
methanol at the wavelength 284 nm.
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8. Molecular weight determination
Molecular weights of compounds can be measured
spectrophotometrically by preparing the suitable derivatives
of these compounds.
For example, if we want to determine the molecular weight
of amine then it is converted in to amine picrate. Then
known concentration of amine picrate is dissolved in a litre
of solution and its optical density is measured at λmax 380
nm. After this the concentration of the solution in gm moles
per litre can be calculated by using the following formula.
"c" can be calculated using above equation, the weight
"w" of amine picrate is known. From "c" and "w",
molecular weight of amine picrate can be calculated. And
the molecular weight of picrate can be calculated using the
molecular weight of amine picrate.
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• 9. As HPLC detector
A UV/Vis spectrophotometer may be used as a
detector for HPLC. The presence of an analyte
gives a response which can be assumed to be
proportional to the concentration. For more
accurate results, the instrument's response to
the analyte in the unknown should be compared
with the response to a standard; as in the case
of calibration curve.
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74
References
• William kemp , Organic Spectroscopy ,1998, 37,
2854
• Silversteen, Organic Spectroscopy ,1998, 37, 2854
• Skoog Douglas A., West Donald M., Holler F.
James, Fundamentals of Analytical Chemistry,
Suanders College Pub,1995. 7th Edition (January 1,
1995)
• Willard, H.H.; Merritt, L.L. Jr.; Dean, J.A.; Settle,
F.A. Jr. Instrumental Methods of Analysis, 7th
edition (1988) United States: Wadsworth Publishing
Company.
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