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Neutralization effects in the electron-stimulated desorption of molecules covalently bonded to metal oxide surfaces
Todd R. Hayes, John F. Evans
Chemistry & Biochemistry
Research output
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Contribution to journal
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Article
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peer-review
4
Scopus citations
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Dive into the research topics of 'Neutralization effects in the electron-stimulated desorption of molecules covalently bonded to metal oxide surfaces'. Together they form a unique fingerprint.
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Engineering & Materials Science
Desorption
100%
Electrons
87%
Molecules
84%
Oxides
74%
Metals
55%
Ions
40%
Valence bands
26%
Ionization potential
25%
Substrates
20%
Chemical Compounds
Neutralization
88%
Metal Oxide
72%
Desorption
66%
Molecule
30%
Electron Particle
28%
Surface
27%
Trimethylsilyl Group
23%
Silyl Group
22%
Secondary Ion
22%
Reaction Yield
21%
Valence Band
19%
Ionization Potential
17%
Resonance
13%
Ion
13%
Dissociation
12%
Physics & Astronomy
metal oxides
83%
desorption
76%
molecules
46%
electrons
36%
ions
20%
electron bombardment
18%
cross sections
16%
ionization potentials
15%
attachment
14%
indication
13%
fragments
12%
dissociation
11%
valence
10%