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Angstrom-Resolved Interfacial Structure in Buried Organic-Inorganic Junctions.

Authors :
Schwartz, Craig P
Schwartz, Craig P
Raj, Sumana L
Jamnuch, Sasawat
Hull, Chris J
Miotti, Paolo
Lam, Royce K
Nordlund, Dennis
Uzundal, Can B
Das Pemmaraju, Chaitanya
Mincigrucci, Riccardo
Foglia, Laura
Simoncig, Alberto
Coreno, Marcello
Masciovecchio, Claudio
Giannessi, Luca
Poletto, Luca
Principi, Emiliano
Zuerch, Michael
Pascal, Tod A
Drisdell, Walter S
Saykally, Richard J
Schwartz, Craig P
Schwartz, Craig P
Raj, Sumana L
Jamnuch, Sasawat
Hull, Chris J
Miotti, Paolo
Lam, Royce K
Nordlund, Dennis
Uzundal, Can B
Das Pemmaraju, Chaitanya
Mincigrucci, Riccardo
Foglia, Laura
Simoncig, Alberto
Coreno, Marcello
Masciovecchio, Claudio
Giannessi, Luca
Poletto, Luca
Principi, Emiliano
Zuerch, Michael
Pascal, Tod A
Drisdell, Walter S
Saykally, Richard J
Source :
Physical review letters; vol 127, iss 9, 096801; 0031-9007
Publication Year :
2021

Abstract

Charge transport processes at interfaces play a crucial role in many processes. Here, the first soft x-ray second harmonic generation (SXR SHG) interfacial spectrum of a buried interface (boron-Parylene N) is reported. SXR SHG shows distinct spectral features that are not observed in x-ray absorption spectra, demonstrating its extraordinary interfacial sensitivity. Comparison to electronic structure calculations indicates a boron-organic separation distance of 1.9 Å, with changes of less than 1 Å resulting in easily detectable SXR SHG spectral shifts (ca. hundreds of milli-electron volts).

Details

Database :
OAIster
Journal :
Physical review letters; vol 127, iss 9, 096801; 0031-9007
Notes :
application/pdf, Physical review letters vol 127, iss 9, 096801 0031-9007
Publication Type :
Electronic Resource
Accession number :
edsoai.on1277076110
Document Type :
Electronic Resource

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