Updated on 2024/10/07

写真b

 
UENO Nami
 
*Items subject to periodic update by Rikkyo University (The rest are reprinted from information registered on researchmap.)
Affiliation*
College of Science Department of Chemistry
Title*
Assistant Professor
Research Interests
  • 電子状態

  • 多変量解析

  • 高分子

  • 分光分析

  • Campus Career*
    • 9 2023 - Present 
      College of Science   Department of Chemistry   Assistant Professor
     

    Research Areas

    • Natural Science / Mathematical physics and fundamental theory of condensed matter physics

    Papers

    • Visualization of Changes in Crystallinity and Intermolecular Hydrogen Bonding of Poly(ϵ-caprolactone) during Marine Degradation Process by High- and Low-Frequency Three-Dimensional Raman Mapping

      Tomoaki Segawa, Kohei Ito, Masahiro Hatayama, Yota Maruyama, Jiacheng Gao, Nami Ueno, Harumi Sato

      ACS Applied Polymer Materials6 ( 11 ) 6408 - 6415   14 6 2024

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      Publishing type:Research paper (scientific journal)  

      The samples investigated were prepared by seeking poly(ϵ-caprolactone) (PCL) films in seawater for the study of marine degradation processes. Raman mapping measurements in the low-frequency region and the C═O stretching region were used for investigating the strength of the CH···O═C hydrogen bonding and the changes in the crystallinity of PCL, respectively, in its marine degradation process. During the marine degradation of the PCL film, the amorphous parts of the film decomposed and flow away in the seawater. A band at around 60 cm-1 reflecting intermolecular CH···O═C hydrogen bonds showed a weakening of hydrogen bonds in the crystal structure of PCL. Three-dimensional (3D) Raman mapping developed by the C═O stretching region indicated that the marine degradation started from the surface of the annealed PCL film. However, 3D Raman mapping measurements in the low-frequency region showed no significant difference in the strength of the hydrogen bonding between a film surface and an inside after marine degradation of day 7. These findings suggest that the crystallinity changes mainly near the film surface, but changes in the strength of the hydrogen bonding occur both near the surface and inside of the PCL film.

      DOI: 10.1021/acsapm.4c00621

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    • Visualization of isothermal crystallization and phase separation in poly[(R)-3-hydroxybutyrate]/poly(L-lactic acid) by low-frequency Raman imaging

      Nami Ueno, Harumi Sato

      Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy312   124052 - 124052   5 2024

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      Publishing type:Research paper (scientific journal)   Publisher:Elsevier BV  

      DOI: 10.1016/j.saa.2024.124052

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    • Temperature‐dependent structural variations of water and supercooled water and spectral analysis of Raman spectra of water in the OH‐stretching band region and low‐frequency region studied by two‐dimensional correlation Raman spectroscopy

      Hiroto Asano, Nami Ueno, Yukihiro Ozaki, Harumi Sato

      Journal of Raman Spectroscopy53 ( 10 ) 1669 - 1678   28 9 2022

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      Authorship:Lead author   Publishing type:Research paper (scientific journal)   Publisher:Wiley  

      Abstract

      Raman spectra of water and supercooled water were measured in the temperature range of −6 to 18°C with every 2°C step. The obtained spectra were analyzed for the 3750–2850 and 400–100 cm<sup>−1</sup> regions by two‐dimensional correlation (2D‐COS) Raman spectroscopy. As previously reported, there are three bands at around 3620, 3420, and 3200 cm<sup>−1</sup> in the OH‐stretching region. These bands were assigned to the OH‐stretching modes of dangling (Dang) bonds of water, destructured, and structured water species, respectively. A pair of clear peaks appear in asynchronous 2D‐COS maps in the 3750–2850 cm<sup>−1</sup> region of Raman spectra of water developed using the spectra measured in the temperature ranges of −6 to 2°C, 0 to 8°C, and 8 to 18°C, and they are similar to each other, suggesting nonlinear (convex) temperature‐dependent increase and decrease of the two kinds of water species. A power spectrum calculated along the diagonal line in the synchronous spectrum in the −6 to 18°C range has a peak at 3171 cm<sup>−1</sup> with a broad shoulder at around 3400 cm<sup>−1</sup>. These peaks at 3171 and 3400 cm<sup>−1</sup> may be assigned to the collective mode and its local mode of structured water, respectively. In the 400–100 cm<sup>−1</sup> region, there is a broad feature centered at 185 cm<sup>−1</sup> assigned to the intermolecular stretching mode of water molecule. Close inspection of the low‐frequency region by the baseline corrected spectra and the second derivative spectra shows that the broad feature consists of a major band at around 185 cm<sup>−1</sup> and a weak shoulder at around 150 cm<sup>−1</sup>. We have assigned these two peaks at 185 and 150 cm<sup>−1</sup> to the structured and destructured water, respectively, based on the results of 2D‐COS and the comparison with the results of multivariate curve resolution‐alternative least squares reported by Hamaguchi et al. A hetero 2D correlation synchronous map between the 3750–3000 and 400–100 cm<sup>−1</sup> regions reveals that there is a cross peak between the structured water band at around 3200 cm<sup>−1</sup> and the 185 cm<sup>−1</sup> band, confirming that the 185 cm<sup>−1</sup> band comes from the structured water.

      DOI: 10.1002/jrs.6444

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      Other Link: https://onlinelibrary.wiley.com/doi/full-xml/10.1002/jrs.6444

    • Experimental verification of increased electronic excitation energy of water in hydrate-melt water by attenuated total reflection-far-ultraviolet spectroscopy

      Nami Ueno, Masato Takegoshi, Anna Zaitceva, Yukihiro Ozaki, Yusuke Morisawa

      The Journal of Chemical Physics156 ( 7 ) 074705   21 2 2022

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    • Determining the Coordination Number of Li<sup>+</sup> and Glyme or Poly(ethylene glycol) in Solution Using Attenuated Total Reflectance–Far Ultraviolet Spectroscopy

      UENO Nami, WAKABAYASHI Tomonari, MORISAWA Yusuke

      Analytical Sciences36 ( 1 ) 91 - 93   10 1 2020

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      Language:English   Publisher:The Japan Society for Analytical Chemistry  

      Attenuated total reflectance–far ultraviolet (ATR-FUV) spectra of Li<sup>+</sup> and polyether ligands, such as glymes and poly (ethylene glycol) (PEG), in solution give information about changes in the electronic states of the ligands. From the ATR-FUV spectra, the coordination numbers between Li<sup>+</sup> and monoglyme, diglyme, triglyme, and PEG400 were determined to be 4, 5, 6, and 5, respectively. Our results indicate that Li<sup>+</sup> is coordinated only by the ligands rather than its counter-ions.

      DOI: 10.2116/analsci.19c011

      DOI: 10.1039/d0cp03865b_references_DOI_Fow4PRZmf8rygqweelJLkFZIpO6

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      Other Link: https://link.springer.com/article/10.2116/analsci.19C011/fulltext.html

    • Changes in the Electronic Transitions of Polyethylene Glycol upon the Formation of a Coordinate Bond with Li+, Studied by ATR Far-Ultraviolet Spectroscopy

      Nami Ueno, Tomonari Wakabayashi, Harumi Sato, Yusuke Morisawa

      The Journal of Physical Chemistry A123 ( 50 ) 10746 - 10756   15 11 2019

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    • Bi2Ne: Weakly bound cluster of diatomic bismuth with neon

      Asuka Endo, Miho Hatanaka, Nami Ueno, Yusuke Morisawa, Tomonari Wakabayashi

      Low Temperature Physics45 ( 7 ) 689 - 696   7 2019

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    • Elucidation of the electronic states in polyethylene glycol by attenuated Total reflectance spectroscopy in the far-ultraviolet region

      Nami Ueno, Tomonari Wakabayashi, Yusuke Morisawa

      Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy197   170 - 175   5 2018

    • Investigation for electronic states of molecules in gel and solid electrolytes using attenuated total reflectance spectroscopy in the far-UV region Peer-reviewed

      Yusuke Morisawa, Nami Ueno, Kazutaka Nishikido

      UV AND HIGHER ENERGY PHOTONICS: FROM MATERIALS TO APPLICATIONS 201810727   2018

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      Language:English   Publishing type:Research paper (international conference proceedings)   Publisher:SPIE-INT SOC OPTICAL ENGINEERING  

      Far-ultraviolet (FUV) spectroscopy gives rich information about changes in the electronic states of molecules from interactions in condensed phase. We are investigated electronic states of molecules in the condensed ionic environment such as gel electrolytes, ionic liquids, and deep eutectic solvents. To measure the FUV spectra for liquid and solid nondestructively and feasibly, attenuate total reflectance (ATR) spectroscopy were developed to measure spectra of liquid, gel and solid samples in the 140-300 nm region. In this paper, we discuss about changes by interaction due to ionic environment in the electronic state of poly (ethylene glycol) (PEG) in gel electrolytes with Li salts, and deep eutectic solvents composed of acetamide and Li salts.

      DOI: 10.1117/12.2320923

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    • Changes in electronic states of molecules resulted from interactions in the condensed phase Peer-reviewed

      Yusuke Morisawa, Nami Ueno, Shin Tachibana, Masahiro Ehara, Yukihiro Ozaki

      UV AND HIGHER ENERGY PHOTONICS: FROM MATERIALS TO APPLICATIONS 201710351   2017

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      Language:English   Publishing type:Research paper (international conference proceedings)   Publisher:SPIE-INT SOC OPTICAL ENGINEERING  

      The wavelength region shorter than 200 nm, far-ultraviolet (FUV) region, is very rich in information about the electronic states and structure of a molecule. We have recently developed a totally new UV spectrometer based on attenuated total reflection (ATR) that enables us to measure spectra of liquid and solid samples in the 140-280 nm region. This paper shows the studies by the attenuated total reflection far-ultraviolet (ATR-FUV) spectroscopy. Intermolecular interactions between alkyl chains such as CH---HC should be reflected in the phase behavior of organic compounds. We measured the attenuated total reflectance spectra in the far-UV region (145-300 nm) of n-tetradecane (Tm = 5.9 degrees C) from 15 to -38 degrees C to determine its temperature dependency. With decreasing temperature, the absorption band at 153 nm in the liquid phase becomes weaker and new bands appear at around 200 and 230 nm. These results suggest that an unusually compressed structure might be generated at the surface at low temperatures, and this phase change, which is reversible, is responsible for the unusual absorption observed in the ATR-FUV spectra. We have also investigated composite polymer electrolytes (CPE). ATR-FUV spectra of CPEs composed of Poly(ethylene oxide) (PEO) and Li salt were observed and its variation of anions for the CPEs are studied.

      DOI: 10.1117/12.2273128

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    Presentations

    • Spectra analysis of FT-NIR of bio-mass materials in the BICs formation process

      Ueno Nami, Morisawa Yusuke

      The Proceedings of the Symposium on Environmental Engineering  2020  The Japan Society of Mechanical Engineers

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      Event date: 2020 - 2020

      Language:Japanese  

      FT-NIR spectroscopy has the potential to be an index for the degree of the formation of BICs using the changes in the hydrogen bonding or CH stretching vibration in terminal groups between the materials (reagents such as cellulose and cellobiose, botanical wastes from coffee beans and tealeaves) and various processing conditions of BICs. FT-NIR spectroscopy is a grate method for the BICs analysis because it is able to measure the vibrational spectra without destruction and pre-preparation for the spectroscopic measurement. The other reason why NIR is that this spectroscopy is hard to include noises from some contained materials in BICs. In the other hand, NIR spectra need the statistics analysis called “chemometrics” because these spectra show very broad and overlapped band. Changes of these overlapped bands are easier to interpret than MIR regions because MIR region has larger amount of information from many kinds of vibrations. Results of the chemometrics need the careful consideration for the changes between analytical results and intentionally perturbations because sometimes chemometrics results do not have the chemical meaning. Raman and THz spectroscopy are used to understand the actual chemical changes with perturbations by comparing with the results of statistical analysis.

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