1.6 Photoelectron Spectroscopy

    Cards (42)

    • What is the purpose of Photoelectron Spectroscopy (PES)?
      Determine elemental composition and structure
    • The binding energy of an electron is equal to the photon energy minus its kinetic energy.

      True
    • Match the electron shell with its binding energy in Neon:
      1s ↔️ 37 eV
      2s ↔️ 9 eV
    • A binding energy of 37 eV in PES confirms the presence of Neon.

      True
    • What is the relationship between photon energy, kinetic energy, and binding energy in PES?
      BE=BE =hνKE hν - KE
    • The relationship between binding energy (BE), photon energy (hν), and kinetic energy (KE) is given by the formula: BE = hν - KE
    • The photon source in a PES instrument generates high-energy photons to initiate electron ejection.

      True
    • Match the PES component with its function:
      Photon Source ↔️ Generates high-energy photons
      Sample Chamber ↔️ Maintains ultra-high vacuum
      Energy Analyzer ↔️ Measures electron kinetic energies
      Detector ↔️ Counts electrons at each energy
    • Binding energy (BE) is calculated using the formula: BE = hν - KE
    • In environmental science, PES is used to analyze pollutants in soil, water, and air
    • Steps in the process of electron ejection in PES:
      1️⃣ Sample Irradiation
      2️⃣ Electron Emission
      3️⃣ Kinetic Energy Measurement
      4️⃣ Binding Energy Calculation
    • Binding energies are calculated by subtracting the kinetic energy from the photon energy.
    • Electrons ejected from the 1s shell of Neon have a binding energy of 37 eV.
    • What are the four essential components of a PES instrument?
      Photon source, sample chamber, energy analyzer, detector
    • What binding energies would confirm the presence of CuO in a PES spectrum?
      Cu 2p3/2 (932 eV), O 1s (530 eV)
    • The first step in the electron ejection process is high-energy photon irradiation
    • What does KE represent in PES?
      Kinetic Energy
    • The photoelectric effect is the underlying principle of PES.
    • In PES, the symbol BE stands for binding energy.
    • What is the photoelectric effect the principle behind in photoelectron spectroscopy (PES)?
      Emission of electrons
    • What type of photons are used in photoelectron spectroscopy (PES)?
      High-energy photons
    • The sample chamber in a PES instrument maintains ultra-high vacuum conditions to prevent electron scattering
    • The position and intensity of peaks in a PES spectrum provide information about the binding energies and relative abundance of elements.
      True
    • Match the field with a specific application of PES:
      Material Science ↔️ Characterizing surface bonds
      Environmental Science ↔️ Analyzing soil contaminants
      Chemistry ↔️ Studying reaction mechanisms
      Physics ↔️ Mapping electronic band structures
    • Binding energy (BE) is calculated using the formula: BE = hν - KE
    • The formula for binding energy is BE = hν - KE
      True
    • Match the energy type with its symbol and relationship:
      Photon Energy ↔️ hν, Known
      Kinetic Energy ↔️ KE, Measured
      Binding Energy ↔️ BE, BE = hν - KE
    • The photon source in a PES instrument generates high-energy photons to irradiate the sample.
    • Match the field with a specific application of PES:
      Material Science ↔️ Characterizing thin films
      Environmental Science ↔️ Analyzing pollutants in soil
      Chemistry ↔️ Studying reaction mechanisms
      Physics ↔️ Mapping electronic band structures
    • Steps in the electron ejection process in PES
      1️⃣ Sample Irradiation
      2️⃣ Electron Emission
      3️⃣ Kinetic Energy Measurement
      4️⃣ Binding Energy Calculation
    • Binding energies in PES are characteristic for each element.

      True
    • What is the formula to calculate binding energy in PES?
      BE=BE =hνKE hν - KE
    • The photoelectric effect explains why electrons are ejected when irradiated with photons.
      True
    • Photon energy is measured in photoelectron spectroscopy (PES).

      True
    • What does the energy analyzer measure in a PES instrument?
      Kinetic energies of electrons
    • What does a photoelectron spectrum show in PES?
      Number of electrons at binding energies
    • What is one application of PES in material science?
      Characterizing thin films
    • PES involves bombarding a sample with high-energy photons to eject electrons.

      True
    • What does the calculated binding energy in PES confirm about a sample?
      Presence of specific elements
    • When Neon is irradiated with 200 eV photons, what is the kinetic energy of electrons ejected from the 1s shell?
      163 eV