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Molecular Spectra. Terry A. Ring Chemical Engineering University of Utah. EM Spectrum. X-rays UV Visible IR Microwave Radio waves. What is EM radiation?. Various Spectra. UV-Vis - Excitation of π-electrons or n-electrons IR-Bond Vibration - Electronic Cloud Oscillation
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Molecular Spectra Terry A. Ring Chemical Engineering University of Utah
EM Spectrum • X-rays • UV • Visible • IR • Microwave • Radio waves What is EM radiation?
Various Spectra • UV-Vis - Excitation of π-electrons or n-electrons • IR-Bond Vibration - Electronic Cloud Oscillation • Fluorescence – Light Absorption moves electron from GS to ES then light emission (different wavelength)
Energy Level Diagrams, Hydrogen -0.85 eV 4 -1.51 eV 3 L -3.40 eV 2 K -13.6 eV 1
Molecular Orbitals • • 1s • New Energy • Bonding • Anti Bonding • Hybridization • New Shapes to Orbitals with hybridization 1s • •
Spectrometers • Absorption • Emission - Absorption moves electron from GS to ES then emission
Color Analysis • Color Comparison
UV-Visible Spectrometer • Absorption Spectrometer • Direct or comparative
Accuracy of Spectrometer • Spectral Resolution • (Bandwidth) • Δλ= s dλ/ds • Slit width = s • Precision of prism/grating, dλ/ds Benzene
Analysis • UV of Benzene Derivative • Beer Lambert Law • A=-log(T)= () c l • T=I/Io
Metal Complexation • Metal with π-electron Complex in water solution • Colored Solution • Different color than organic alone
Reagent Excess/Metal Excess • Two Component Analysis • Principle Component Analysis • (More than two)
Fluorescence • Light Absorbed, λo • Electron from GS to Excited State • Electron Cascades back to GS • Light Emission • Different color, λ1 • I=Kε(λo)IoQ (λ1) • Q=quantum efficiency • K device constant • Quenching at High C, Q
Fluorescence • I=Kε(λo)IoQ (λ1) • Q=quantum efficiency • K device constant • Quenching at High C, • Q • self absorption • Fluorophore • Chelating agents for metals
X-ray Fluorescence • Two Steps • Absorption of X-ray • Elimination of electron for k or L shell • Collapse of L or M shell electron to fill hole • Light emission (x-ray)
Potential X-ray Emissions • From K shell hole • K, K, K, • Zeeman Effect - 1, 2, 3 • From L shell hole • L, L, L, Note Nomenclature Error
Generation of X-rays • High Voltage Electrons • Electron Scattering • Electron Absorption • X-ray photo ionization
XRF • Energy-dispersive XRF • Wavelength-dispersive XRF
XRF Detectors • Energy-dispersive XRF • Semiconductor • Wavelength dispersive XRF • Scintilation Counter
XRF Analysis • Samples can be in any form • Solid • Powder • Liquid