Your search keyword '"Miyawaki, J."' showing total 7 results

1. Electronic surface reconstruction of TiO2 nanocrystals revealed by resonant inelastic x-ray scattering

Author

Chuang, CH, Chuang, CH, Chen, CM, Shao, YC, Yeh, PH, Chang, CM, Pong, WF, Kapilashrami, M, Glans, PA, Gul, S, Wang, G, Li, Y, Zhang, J, Miyawaki, J, Niwa, H, Harada, Y, Chen, JM, Guo, J, Chuang, CH, Chuang, CH, Chen, CM, Shao, YC, Yeh, PH, Chang, CM, Pong, WF, Kapilashrami, M, Glans, PA, Gul, S, Wang, G, Li, Y, Zhang, J, Miyawaki, J, Niwa, H, Harada, Y, Chen, JM, and Guo, J

Abstract

The identification of lattice multiphases in TiO2 nanocrystals is studied by high resolution transmission electron microscope and electron diffraction patterns. Based on the spectroscopic analysis using soft x-ray absorption and resonant inelastic soft x-ray scattering, it is believed that the oxygen vacancies at the interface exhibit structural distortion of the TiO68−cluster around the defect site as for the multiphase lattice. We elucidate that the extra 3d electrons nearby induce the inelastic scattering features with the excitation energy dependence owing to different energy relaxation processes, a characteristic of the electron-phonon coupling or the nature of the electron-hole pair at the intermediate state. The manifold dd excitations driven by the strong interaction between Ti-3d and O-2p electrons are noticeably rich, coexisting on both Ti and O sites. This sophisticated experiment can advance the perspective of nanocomposite TiO2 for various interactions of surface Ti3+ in applications of future devices.

Published

2021

2. Electronic surface reconstruction of TiO2 nanocrystals revealed by resonant inelastic x-ray scattering

Author

Chuang, CH, Chuang, CH, Chen, CM, Shao, YC, Yeh, PH, Chang, CM, Pong, WF, Kapilashrami, M, Glans, PA, Gul, S, Wang, G, Li, Y, Zhang, J, Miyawaki, J, Niwa, H, Harada, Y, Chen, JM, Guo, J, Chuang, CH, Chuang, CH, Chen, CM, Shao, YC, Yeh, PH, Chang, CM, Pong, WF, Kapilashrami, M, Glans, PA, Gul, S, Wang, G, Li, Y, Zhang, J, Miyawaki, J, Niwa, H, Harada, Y, Chen, JM, and Guo, J

Abstract

The identification of lattice multiphases in TiO2 nanocrystals is studied by high resolution transmission electron microscope and electron diffraction patterns. Based on the spectroscopic analysis using soft x-ray absorption and resonant inelastic soft x-ray scattering, it is believed that the oxygen vacancies at the interface exhibit structural distortion of the TiO68−cluster around the defect site as for the multiphase lattice. We elucidate that the extra 3d electrons nearby induce the inelastic scattering features with the excitation energy dependence owing to different energy relaxation processes, a characteristic of the electron-phonon coupling or the nature of the electron-hole pair at the intermediate state. The manifold dd excitations driven by the strong interaction between Ti-3d and O-2p electrons are noticeably rich, coexisting on both Ti and O sites. This sophisticated experiment can advance the perspective of nanocomposite TiO2 for various interactions of surface Ti3+ in applications of future devices.

Published

2021

3. Electronic surface reconstruction of TiO2 nanocrystals revealed by resonant inelastic x-ray scattering

Author

Chuang, CH, Chuang, CH, Chen, CM, Shao, YC, Yeh, PH, Chang, CM, Pong, WF, Kapilashrami, M, Glans, PA, Gul, S, Wang, G, Li, Y, Zhang, J, Miyawaki, J, Niwa, H, Harada, Y, Chen, JM, Guo, J, Chuang, CH, Chuang, CH, Chen, CM, Shao, YC, Yeh, PH, Chang, CM, Pong, WF, Kapilashrami, M, Glans, PA, Gul, S, Wang, G, Li, Y, Zhang, J, Miyawaki, J, Niwa, H, Harada, Y, Chen, JM, and Guo, J

Abstract

The identification of lattice multiphases in TiO2 nanocrystals is studied by high resolution transmission electron microscope and electron diffraction patterns. Based on the spectroscopic analysis using soft x-ray absorption and resonant inelastic soft x-ray scattering, it is believed that the oxygen vacancies at the interface exhibit structural distortion of the TiO68−cluster around the defect site as for the multiphase lattice. We elucidate that the extra 3d electrons nearby induce the inelastic scattering features with the excitation energy dependence owing to different energy relaxation processes, a characteristic of the electron-phonon coupling or the nature of the electron-hole pair at the intermediate state. The manifold dd excitations driven by the strong interaction between Ti-3d and O-2p electrons are noticeably rich, coexisting on both Ti and O sites. This sophisticated experiment can advance the perspective of nanocomposite TiO2 for various interactions of surface Ti3+ in applications of future devices.

Published

2021

4. Probing the OH Stretch in Different Local Environments in Liquid Water

Author

Harada, Y., Miyawaki, J., Niwa, H., Yamazoe, K., Pettersson, Lars G. M., Nilsson, Anders, Harada, Y., Miyawaki, J., Niwa, H., Yamazoe, K., Pettersson, Lars G. M., and Nilsson, Anders

Abstract

We use resonant inelastic X-ray scattering (RIXS) to resolve vibrational losses corresponding to the OH stretch where the X-ray absorption process allows us to selectively probe different structural subensembles in liquid water. The results point to a unified interpretation of X-ray and vibrational spectroscopic data in line with a picture of two classes of structural environments in the liquid at ambient conditions with predominantly close-packed high-density liquid (HDL) and occasional local fluctuations into strongly tetrahedral low-density liquid (LDL).

Published

2017

5. Molecular simulation aided nanoporous carbon design for highly efficient low-concentrated formaldehyde capture

Author

Kowalczyk, P., Miyawaki, J., Azuma, Y., Yoon, S-H, Nakabayashi, K., Gauden, P.A., Furmaniak, S., Terzyk, A.P., Wiśniewski, M., Włoch, J., Kaneko, K., Neimark, A.V., Kowalczyk, P., Miyawaki, J., Azuma, Y., Yoon, S-H, Nakabayashi, K., Gauden, P.A., Furmaniak, S., Terzyk, A.P., Wiśniewski, M., Włoch, J., Kaneko, K., and Neimark, A.V.

Abstract

Although recent experimental studies have demonstrated that doping of nanoporous carbons with nitrogen is an effective strategy for highly diluted formaldehyde capture, the impact of carbon surface chemistry and the pore size on formaldehyde capture at ∼ppm concentrations is still poorly understood and controversial. This work presents a combined theoretical and experimental study on dynamic formaldehyde adsorption on pure and oxidized nanocarbons. We find using Monte Carlo simulations and confirm experimentally that cooperative effects of pore size and oxygen surface chemistry have profound impacts on the breakthrough time of formaldehyde. Molecular modeling of formaldehyde adsorption on pure and oxidized model nanoporous carbons at ∼ppm pressures reveals that high adsorption of formaldehyde ppm concentrations in narrow ultramicropores <6 Å decorated with phenolic and carboxylic groups is correlated with long formaldehyde breakthrough times measured in the columns packed with specially prepared oxidized activated carbon fiber adsorbents with the pore size of ∼5 Å.

Published

2017

6. Molecular simulation aided nanoporous carbon design for highly efficient low-concentrated formaldehyde capture

Author

Kowalczyk, P., Miyawaki, J., Azuma, Y., Yoon, S-H, Nakabayashi, K., Gauden, P.A., Furmaniak, S., Terzyk, A.P., Wiśniewski, M., Włoch, J., Kaneko, K., Neimark, A.V., Kowalczyk, P., Miyawaki, J., Azuma, Y., Yoon, S-H, Nakabayashi, K., Gauden, P.A., Furmaniak, S., Terzyk, A.P., Wiśniewski, M., Włoch, J., Kaneko, K., and Neimark, A.V.

Abstract

Although recent experimental studies have demonstrated that doping of nanoporous carbons with nitrogen is an effective strategy for highly diluted formaldehyde capture, the impact of carbon surface chemistry and the pore size on formaldehyde capture at ∼ppm concentrations is still poorly understood and controversial. This work presents a combined theoretical and experimental study on dynamic formaldehyde adsorption on pure and oxidized nanocarbons. We find using Monte Carlo simulations and confirm experimentally that cooperative effects of pore size and oxygen surface chemistry have profound impacts on the breakthrough time of formaldehyde. Molecular modeling of formaldehyde adsorption on pure and oxidized model nanoporous carbons at ∼ppm pressures reveals that high adsorption of formaldehyde ppm concentrations in narrow ultramicropores <6 Å decorated with phenolic and carboxylic groups is correlated with long formaldehyde breakthrough times measured in the columns packed with specially prepared oxidized activated carbon fiber adsorbents with the pore size of ∼5 Å.

Published

2017

7. Interface electronic structure at the topological insulator–ferrimagnetic insulator junction

Author

Massachusetts Institute of Technology. Department of Materials Science and Engineering, Onbasli, Mehmet Cengiz, Ross, Caroline A, Kubota, Y, Murata, K, Miyawaki, J, Ozawa, K, Shirasawa, T, Feng, B, Yamamoto, Sh, Liu, R-Y, Yamamoto, S, Mahatha, S K, Sheverdyaeva, P, Moras, P, Suga, S, Harada, Y, Wang, K L, Matsuda, I, Massachusetts Institute of Technology. Department of Materials Science and Engineering, Onbasli, Mehmet Cengiz, Ross, Caroline A, Kubota, Y, Murata, K, Miyawaki, J, Ozawa, K, Shirasawa, T, Feng, B, Yamamoto, Sh, Liu, R-Y, Yamamoto, S, Mahatha, S K, Sheverdyaeva, P, Moras, P, Suga, S, Harada, Y, Wang, K L, and Matsuda, I

Abstract

An interface electron state at the junction between a three-dimensional topological insulator film, Bi₂Se₃, and a ferrimagnetic insulator film, Y₃Fe₅O₁₂ (YIG), was investigated by measurements of angle-resolved photoelectron spectroscopy and x-ray absorption magnetic circular dichroism. The surface state of the Bi₂Se₃ film was directly observed and localized 3d spin states of the Fe ³⁺ in the YIG film were confirmed. The proximity effect is likely described in terms of the exchange interaction between the localized Fe 3d electrons in the YIG film and delocalized electrons of the surface and bulk states in the Bi₂Se₃ film.

Published

2017