UV-vis. Applications Quantitative analysis Organics (if composition is simple and known) Specific...
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![Page 1: UV-vis. Applications Quantitative analysis Organics (if composition is simple and known) Specific binding to chromaphore Metal-ligand absorption (d-orbital.](https://reader036.fdocuments.net/reader036/viewer/2022072005/56649ce65503460f949b3a2f/html5/thumbnails/1.jpg)
UV-vis
![Page 2: UV-vis. Applications Quantitative analysis Organics (if composition is simple and known) Specific binding to chromaphore Metal-ligand absorption (d-orbital.](https://reader036.fdocuments.net/reader036/viewer/2022072005/56649ce65503460f949b3a2f/html5/thumbnails/2.jpg)
Applications
• Quantitative analysis
• Organics (if composition is simple and known)
• Specific binding to chromaphore
• Metal-ligand absorption (d-orbital splitting),
(Co2+ experiment in gen chm)
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Beer’s Law
• A = -logT = log(P0/P) = bc
• T = Psolution/Psolvent = P/P0
• Works for monochromatic light• Compound x has a unique at different
wavelengths
cuvette
sourceslit
detector
![Page 4: UV-vis. Applications Quantitative analysis Organics (if composition is simple and known) Specific binding to chromaphore Metal-ligand absorption (d-orbital.](https://reader036.fdocuments.net/reader036/viewer/2022072005/56649ce65503460f949b3a2f/html5/thumbnails/4.jpg)
b 1 cm
c 0.000056 M
P0 1000 W
P 500 W
P/P0 0.5
T 0.5
%T 50
log(1/T) 0.30103
(-logT) 0.30103
absorbance 0.30103
ebc 0.30103
eb 5375.536 L/mol
e 5375.536 Lcm-1mol-1
![Page 5: UV-vis. Applications Quantitative analysis Organics (if composition is simple and known) Specific binding to chromaphore Metal-ligand absorption (d-orbital.](https://reader036.fdocuments.net/reader036/viewer/2022072005/56649ce65503460f949b3a2f/html5/thumbnails/5.jpg)
Beer’s Law Analysis
• Choice of wavelength– Typically choose wavelength of maximum
absorbance– May deviate from this to avoid an interference
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Common UV-vis instuments
cuvette
Tungsten Filament (vis)
slit
Photomultiplier tube
monochromator
Deuterium lampFilament (UV)
slit
Scanning Instrument
![Page 7: UV-vis. Applications Quantitative analysis Organics (if composition is simple and known) Specific binding to chromaphore Metal-ligand absorption (d-orbital.](https://reader036.fdocuments.net/reader036/viewer/2022072005/56649ce65503460f949b3a2f/html5/thumbnails/7.jpg)
sources
• Tungten lamp (350-2500 nm)
• Deuterium (200-400 nm)
• Xenon Arc lamps (200-1000 nm)
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Monochromator
• Braggs law, n = d(sin i + sin r)
• Angular dispersion, dr/d = n / d(cos r)
• Resolution, R = /nN, resolution is extended by concave mirrors to refocus the divergent beam at the exit slit
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Sample holder
• Visible; can be plastic or glass
• UV; you must use quartz
![Page 10: UV-vis. Applications Quantitative analysis Organics (if composition is simple and known) Specific binding to chromaphore Metal-ligand absorption (d-orbital.](https://reader036.fdocuments.net/reader036/viewer/2022072005/56649ce65503460f949b3a2f/html5/thumbnails/10.jpg)
Single beam vs. double beam
• Source flicker
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Diode array Instrument
cuvette
Tungsten Filament (vis)
slit
Diode array detector328 individual detectors
monochromator
Deuterium lampFilament (UV)
slit
mirror
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Advantages/disadvantages
• Scanning instrument– High spectral resolution (63000), /– Long data acquisition time (several minutes)– Low throughput
• Diode array– Fast acquisition time (a couple of seconds),
compatible with on-line separations– High throughput (no slits)– Low resolution (2 nm)
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HPLC-UV
Mobile phase
HPLC Pump
syringe
6-port valveSample
loop
HPLC column
UV detector
Solvent waste