Hiromi Ikeura-Sekiguchi scite author profile

Partial density of states in the empty conduction band of the phosphate backbone sites in DNA was probed using energy-dependent resonant Auger spectroscopy. Results show that genomic DNA with periodic backbones exhibits an extended state despite separation of each phosphate group by an insulating sugar group. In antisense DNA with an aperiodic backbone, the equivalent state is localized. Remarkably rapid electron delocalization occurs at ca. 740 attoseconds for wet DNA, as estimated using the core-hole clock method. Such delocalization is comparable to the Fermi velocity of carbon nanotubes.

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Adsorption structure of formic acid on Si(100) studied by surface NEXAFS

Ikeura-Sekiguchi¹,

Sekiguchi

1999

Surface Science

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Unoccupied electronic states in polythiophene as probed by XAS and RAS

Ikeura-Sekiguchi

Sekiguchi

2008

Surface & Interface Analysis

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Polythiophene is a typical conducting polymer. Unoccupied electronic states near the Fermi level of polythiophene polycrystalline powder were probed using S 1s X-ray absorption spectroscopy (XAS) and S KL 2,3 L 2,3 resonant Auger spectroscopy (RAS). Its overall XAS spectral shape resembles those of 2,-2 -bithiophene and α-terthiophene polycrystalline powder. No energy shifts were observed in the π * and σ * (S-C) states. In contrast, it was observed that the position of σ * (C-C) resonance slightly shifts to lower energy concomitantly with the increase of thiophene repeating units. The normal Auger yield spectrum shows the lack of a delocalized peak, which suggests π * -electrons remain localized at each thiophene unit during the S 1s core-hole lifetime of ca 1.1 femtoseconds. Although π * and σ * (S-C) states in XAS are not resolved because of their overlap of electronic transitions, they were separated by plotting spectator Auger yields as a function of excitation energy. Such unresolved states in XAS are demonstrated to be distinguishable using RAS technique if the Auger spectator shifts of the corresponding states differ mutually. Results of this study underscore that excitation energy-dependent RAS can overcome the limitation of conventional XAS.

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Quasi-monochromatic hard X-ray source via laser Compton scattering and its application

Kuroda

Toyokawa

Yasumoto

et al. 2011

Nuclear Instruments and Methods in Physics Research Section A:

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