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Facility

[研究室内の実験装置] [学外の研究施設] 

Experimental apparatus

  • X-ray diffractometer
    (Rigaku Ultima III)

  • Furnace

  • Tubular furnace

  • Thermostatic oven

  • Glove box

  • Pulsed Laser Deposition

  • Pulsed Laser Depos

  • Magnetron spattering

  • Charge and discharge controller

  • MEA evaluation equipment

  • Scanning electron microscope (SEM)

  • Alkaline water electrolysis cell (home-made)

  • Optical response evaluation cell for photocatalyst

  • Rotating Disk Electrode cell for PEFC

  • channel flow double electrode (CFDE) cell

  • Ultra-high vacuum chamber

学外の研究施設

SPring-8

SPring-8 is a large synchrotron radiation facility which delivers the most powerful synchrotron radiation currently available. Consisting of narrow, powerful beams of electromagnetic radiation, synchrotron radiation is produced when electron beams, accelerated to nearly the speed of light, are forced to travel in a curved path by a magnetic field. The research conducted at SPring-8, located in Harima Science Park City, Hyogo Prefecture, Japan, includes nanotechnology, biotechnology and industrial applications. The name “SPring-8” is derived from “Super Photon ring-8 GeV” (8 GeV, or 8 giga electron volts, being the energy of electron beam circulating in the storage ring).
(http://www.spring8.or.jp/ja/about_us/whats_sp8/)

BL01B1, BL37XU

The beamline BL01B1 is designed for the transmission mode XAFS measurements using ionization chambers. The various applications of XAFS can be done in the energy range of 3.8 – 113 keV.
Using the cryostat and furnaces, the sample temperature can be controlled in the range of 4 – 1070 K. A Lytle type detector and 19-element Ge solid-state detector are available for the measurement of the excited spectra. A conversion electron yield detector is available for layered synthetic materials and bulk sample. A θ-2θ stage is used for glancing-angle XAFS measurements. A PILATUS 100K detector is available for depth-resolved XAFS measurements. Time resolved quick XAFS measurements can be performed with time resolution more than 10 sec.
BL37XU is a hard X-ray undulator beamline that is mainly used for studies of X-ray micro/nano-spectrochemical analysis such as XRF/XAFS imaging, wavelength-dispersive XAFS, depth-resolved XAFS, TXRF and XRF holography. This beamline has two branches (A and B) and three experimental hutches. The branch A consists of standard undulator-beamline optics such as a double crystal monochromator, and branch B consists of a specially designed optics for high-energy X-rays such as a single crystal monochromator.

http://www.spring8.or.jp/wkg/BL01B1/instrument/lang/INS-0000000401/instrument_summary_view
http://www.spring8.or.jp/wkg/BL01B1/instrument/lang/INS-0000000401/instrument_summary_view

  • In front of Experimental Hutch

  • Opening Experimental Hutch

  • Inside of Experimental Hutch

  • Conducting Experiment

  • Control PCs

  • XAFS spectrum collection @BL01B1 (Movie)

BL02B2, BL04B2, BL08W, BL14B2, BL19B2, BL27SU, BL37XU, BL40B2でも実験しています。

J-PARC

Super High Resolution Powder Diffractometer (BL08)
  • Research Objectives
    Materials with complicated structure, composite materials, produced using the newest materials development technology.
  • Features
    The atomic position of a light element such as hydrogen in a crystal structure can be determined precisely.
    The complementary use of X-rays and neutrons will be realized in the intensity and resolution.