thermal desorption spectroscopy (tds) electron stimulated
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Desorption techniquesDesorption techniques
Thermal Desorption Spectroscopy (TDS) Thermal Desorption Spectroscopy (TDS)
Electron Stimulated Desorption ESD)Electron Stimulated Desorption ESD)
Electron Stimulated Desorption Ion Angular Electron Stimulated Desorption Ion Angular Distribution (ESDIAD) Distribution (ESDIAD)
Photon Stimulated Desorption (PSD)Photon Stimulated Desorption (PSD)
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Thermal desorption spectroscopy (TDS)or
Temperature Programmed Desorption (TPD)
Adsorbed molecule bound to surface in potential well of depth Edes
Probability that molecule will desorb at any one temperature, to produce an equilibrium vapor pressure, is governed by Boltzmann statistics
In TPD experiment, gaseous molecule/atom is adsorbed onto surface (sometimes cooled) then desorbed by heating surface
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Pressure rise monitored by- total pressure gauge (e.g. ion gauge)- mass spectrometerusually quadrupole (not TOF)can acquire single or multiple m/z during heating
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The data obtained from such an experiment consists of the intensThe data obtained from such an experiment consists of the intensity ity variation of each recorded mass fragment as a function of time /variation of each recorded mass fragment as a function of time /temperature. In the case of a simple reversible adsorption procetemperature. In the case of a simple reversible adsorption process it may ss it may only be necessary to record one signal only be necessary to record one signal -- that attributable to the molecular that attributable to the molecular ion of the ion of the adsorbateadsorbate concerned. concerned. The graph below shows data from a TPD experiment following adsorThe graph below shows data from a TPD experiment following adsorption ption of CO onto a Pd(111) crystal at 300 K.of CO onto a Pd(111) crystal at 300 K.
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The area under a peak is proportional to the amount originally The area under a peak is proportional to the amount originally adsorbed, i.e. proportional to the surface coverage. adsorbed, i.e. proportional to the surface coverage.
The kinetics of desorption (obtained from the peak profile and The kinetics of desorption (obtained from the peak profile and the coverage dependence of the desorption characteristics) the coverage dependence of the desorption characteristics) give information on the state of aggregation of the adsorbed give information on the state of aggregation of the adsorbed species e.g. molecular species e.g. molecular v'sv's dissociative. dissociative.
The position of the peak (the The position of the peak (the peak temperaturepeak temperature) is related to ) is related to the enthalpy of adsorption, i.e. to the strength of binding to the enthalpy of adsorption, i.e. to the strength of binding to the surface. the surface.
One implication of the last point, is that if there is more thanOne implication of the last point, is that if there is more thanone binding state for a molecule on a surface (and these one binding state for a molecule on a surface (and these have significantly different adsorption enthalpies) then this have significantly different adsorption enthalpies) then this will give rise to multiple peaks in the TPD spectrum.will give rise to multiple peaks in the TPD spectrum.
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The graph below shows data from a TPD experiment The graph below shows data from a TPD experiment following adsorption of oxygen on Pt(111) at 80 K.following adsorption of oxygen on Pt(111) at 80 K.
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The peak at ca. 140 K corresponds to desorption of the more The peak at ca. 140 K corresponds to desorption of the more weakly bound stateweakly bound state
The more weakly bound state has the lower activation energy for desorption and will therefore undergo desorption at a lower temperature. The two peaks correspond to the presence of both molecularly andatomically (i.e. dissociatively) adsorbed oxygen on the surface.
The molecular species is the more weakly adsorbed.
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One can obtain:
- Heat of adsorption (if adsorption and desorption are reversible/nondissociative processes)
- Quantitative coverage information about dissociative and nondissociative adsorption
- Energetic information about phases transitions, interadsorbate interactions, multiple adsorption sites
- Kinetic information about desorption process
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-I(T) does not rise indefinitely - at some stage, all molecules desorbed
- If the mass spectrometer collected and ionized all adsorbates, area under TPD I(T) curve would equal molecular coverage
- Only fraction desorbed molecules collected and ionized – area under TPD I(T) curve is proportional to molecular coverage
- Shape of I(T) curve contains information about desorption kinetics
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Zero-order desorption kinetics:
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-all coverages have common leading edge- rapid drop when all molecules have desorbed- temperature of peak desorption rate, Tm, moves to higher T with θm
Zero-order kinetics observed in thick layers (multilayers) when supply ofmolecules is ~ infinite
May also occur if strong attractive interactions between adsorbates (pseudozero-order)
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First-order desorption kinetics
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Second-order desorption kinetics:
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Fractional-order desorption kinetics
Occasionally fractional order (0 < n < 1) desorption is observed
-believed to indicate cluster formation on surface
-desorption from edges of cluster (2-D or 3-D)