Kyushu University Academic Staff Educational and Research Activities Database
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Hisao Kuriyaki Last modified date:2018.09.13



Graduate School
Undergraduate School
Administration Post
Other


Homepage
http://ultrabio.ed.kyushu-u.ac.jp/
Academic Degree
Doctor of Science
Field of Specialization
Electronic Materials
Outline Activities
Research:
Recently, low-dimensional materials have received much attention as functional electronic materials. For example, the following are known: Electrodes of the lithium-ion battery, carbon nanotubes, high-temperature superconducting materials such as MgB2 and oxide superconductors, etc. We have synthesized single crystals and ceramics of low-dimensional materials. The relationships between crystallinity and electronic transport properties have evaluated. We are trying development of photo-rechargeable battery in which material itself combines light-electrical energy conversion and storage function using the photointercalation phenomenon. We have also studied the organic-inorganic composite materials which react to the light. Using oxygen intercalation phenomenon, an oxygen gas sensor operating around room temperature has been fabricated. We are also trying preparation of oxygen gas sensing device by the micro fabrication of the single crystal with focused ion beam. Furthermore, we are trying development of the taste sensor kit for education.
Lectures offered:
Practice in Basic Information Processing (For undergraduates)
Electrical and Electronic Materials (For undergraduates)
Elements of Electromagnetism (Global 30 project For undergraduates)
Advanced Bioelectronics (For graduates)
Advanced Electronic Materials (For graduates)
Research
Research Interests
  • Developments of the sensor detecting harmful small molecules
    keyword : harmful small molecule sensor
    2014.10.
  • Developments of taste sensor kit for science education
    keyword : taste sensor education kit
    2011.04Developments of Photo-Rechargeable Battery and Photosensitive Materials Key words: photo-rechargeable battery, ptotochromatism, intercalation, organic-inorganic nanocomposite Though the silicon solar cell is the light-electrical energy conversion device, the material itself does not have the storage function. We are trying development of photo-rechargeable battery in which material itself combines light-electrical energy conversion and storage function using the photointercalation phenomenon. We have also studied the organic-inorganic composite materials which react to the light. The organic-inorganic nanocomposite films are synthesized by intercalating various organic molecules into layered semiconductors. The films thus consist of the hetero-multilayer structure of organic monolayer and inorganic monolayer. In the composite materials, there are composite systems which can reversibly control the intercalation by the light. The photodeintercalation is realized by the photoirradiation, and the color of the film reversibly changed. At present, we have study the mechanism and application possibility to optical recording medium..
  • Developments of Photo-Rechargeable Battery and Photosensitive Materials

    keyword : photo-rechargeable battery, ptotochromatism, intercalation, organic-inorganic nanocomposite
    1994.04Developments of Photo-Rechargeable Battery and Photosensitive Materials Key words: photo-rechargeable battery, ptotochromatism, intercalation, organic-inorganic nanocomposite Though the silicon solar cell is the light-electrical energy conversion device, the material itself does not have the storage function. We are trying development of photo-rechargeable battery in which material itself combines light-electrical energy conversion and storage function using the photointercalation phenomenon. We have also studied the organic-inorganic composite materials which react to the light. The organic-inorganic nanocomposite films are synthesized by intercalating various organic molecules into layered semiconductors. The films thus consist of the hetero-multilayer structure of organic monolayer and inorganic monolayer. In the composite materials, there are composite systems which can reversibly control the intercalation by the light. The photodeintercalation is realized by the photoirradiation, and the color of the film reversibly changed. At present, we have study the mechanism and application possibility to optical recording medium..
  • Developments of Oxygen Sensor Operating at Room Temperature
    keyword : oxygen sensor, layered semiconductor, intercalation
    1987.04Developments of Oxygen Sensor Operating at Room Temperature Key words: oxygen sensor, layered semiconductor, intercalation, resistivity Most of the oxygen gas sensor in actual use include the stabilized zirconia type and the oxide semiconductor type and operate at high temperatures above 300℃. From the viewpoint of the reduction in the consumed electric power, oxygen gas sensors capable of operating at room temperature are in strong demand recently, thus new-type oxygen gas sensors should be developed. We have found that the electrical resistivity of some layered semiconductors responds reversibly to oxygen partial pressure of the circumference as a result of oxygen intercalation into van der Waals gaps in its layered structure. Using the new phenomenon, an oxygen gas sensor operating around room temperature has been fabricated. Since then we also examined the possibility of using other layered compounds as the oxygen-sensing material. The sensing element has been made by sintering the layered semiconductor. We are also trying preparation of oxygen gas sensing device by the micro fabrication of the single crystal with focused ion beam..
  • Evaluation of Low-Dimensional Electronic Materials

    keyword : low-dimensional material, functional electronic material, materials evaluation, crystal structure
    1987.04Evaluation of Low-Dimensional Electronic Materials Key words: low-dimensional material, functional electronic material, materials evaluation, crystal structure Recently, low-dimensional materials have received much attention as functional electronic materials. For example, the following are known: Electrodes of the lithium-ion battery, carbon nanotubes, high-temperature superconducting materials such as MgB2 and oxide superconductors, etc. We have synthesized single crystals using iodine-transport method, Bridgman method and ceramics of low-dimensional materials. The relationships between crystallinity and electronic transport properties of the low-dimensional materials have evaluated by X-ray diffraction analysis, thermal analysis, electrical resistivity, Hall coefficient, scanning electron microscope, transmission electron microscope, Fourier transformation infrared spectroscopy, spectral transmittance, electrochemical analysis, etc..
Academic Activities
Papers
1. Effect of Grain Size on the Response to Oxygen Gas of CuFeTe2 Ceramics
Yuta Tokunaga, Masatoshi Kozaki, Hisao Kuriyaki, Kiyoshi Toko
IEEJ Transactions on Sensors and Micromachines. Vol.137, No12, pp.422-425 (2017).
2. Masatoshi Kozaki, Yuta Tokunaga, Yezhi Huang, Hisao Kuriyaki, Kiyoshi Toko, Effects of Sintering Temperature on the Response of CuFeTe2 Ceramics to Oxygen Gas, Sensors and Materials, 28, 3, 231-236, 2016.03.
3. Masatoshi Kozaki, Yuichiro Higuchi, Akihiro Ikeda, Hisao Kuriyaki, Kiyoshi Toko, Development of New Oxygen Sensor by Microfabrication of Single-Crystal CuFeTe2 Thin Films, Sensors and Materials, 25, 7, 471-477, 2013.09.
4. M. Kozaki, N. Nagashima, Y. Ikawa, Hisao Kuriyaki, Kiyoshi Toko, Novel Oxygen sensor Using Oxygen Intercalation of Layered Semiconductor CuFeTe2, Extended Abstracts of the 2013 International Conference on Solid State Devices and Materials (SSDM2013), 306-307, 2013.09.
5. Trial production of a taste sensor kit for education
Hitoshi Arase, Masato Yasuura, Yusuke Tahara, Takeshi Onodera, Hisao Kuriyaki, Kiyoshi Toko
The Papers of Technical Meeting on Chemical Sensor, IEE Japan
Jun2012 pp.21-24.
6. Masatoshi Kozaki, Yuichro Higuchi, Akihiro Ikeda, Hisao Kuriyaki, Kiyoshi Toko, IMPROVEMENT IN OXYGEN GAS RESPONSE USING MICRO-FABRICATION OF
CuFeTe2 SINGLE CRYSTAL THIN FILMS, Proceedings of China-Japan Joint Symposium on Sensing Technology, 18-18, 2012.04.
7. S. Takenoshita, R. Yatabe, M. Kozaki, Hisao Kuriyaki, Kiyoshi Toko, Photo-rechargeable Battery Based on Photo-induced Copper Intercalation into Quasi-One-Dimensional Compound KFeS2, Extended Abstracts of the 2011 International Conference on Solid State Devices and Materials (SSDM2011), 326-327, 2011.09.
8. Oxygen Gas Sensor Using Layered Semiconductor CuFeTe2
Masatoshi Kozaki, Shogo Takenoshita, Hisao Kuriyaki, Kiyoshi Toko
Technical Meeting on Sensors and Micromachines 2011 I. E. E. Japan
30Jun2011.
9. T. Imamura, T. Nugroho, Y. Ikawa, K.Kishiro and H. Kuriyaki , New Type Oxygen Sensing Device using Oxygen Intercalation of Layered Semiconductor TiS2, Extended Abstracts of the 2009 International Conference on Solid State Devices and Materials (SSDM2009), 607-608, 2009.10.
10. Tri Nugroho and Akihiro Ikeda and Yusuke Kakihara and Hisao Kuriyaki and Yukinori Kuroki, New Type Oxygen Sensor Using Micro-fabricated Layered Semiconductor Compound, 2007 International Conference on Solid State Device and Materials, pp. 1142-1143, 2007.09.
11. Hisao Kuriyaki, Yuichiro Higuchi, Takeshi Nakamura, Akihiro Ikeda, Yukinori Kuroki, Microfabrications of Single Crystal CuFeTe2 Thin Films for New Type of Oxygen Sensors, The Seventh International Joint Symposium between Chungnam National University and Kyushu University, pp. 150-153, 2005.09.
12. Akihiro Ikeda, Tomonori Kuwata, Satoru Kajiwara, Tsuyoshi Fujimura, Hisao Kuriyaki, Reiji Hattori, Hiroshi Ogi, Kiyoshi Hamaguchi, Yukinori Kuroki, Design and Measurements of Test Element Group Wafer Thinned to 10um for 3D System in Package, Proc. 2004 IEEE International Conference on Microelectronic Test Structures, 161-164, Vol. 17 pp. 161-164, 2004.03.
13. Hisao Kuriyaki and Kiichiro Takenaka, Low-Temperature Iondine Heat Treatment of Quasi-One-Dimensional KFeS2 Crystals, Japanese Journal of Applied Physics, 10.1143/JJAP.43.188, 43, 1, 188-191, Vol.43, No. 1 pp. 188-191, 2004.01.
14. Relation between Composition Ratio and Energy Gap of n-Nonylamine/PbI2 Composite Materials
R. Wada, H. Kuriyaki
Res. Rep. Info. Sci. & Elec. Eng. Kyushu Univ.
Vol. 7 (2002) 65-68.
15. Impedance Characteristics in Oxygen Response of Layered Material CuFeTe2
Y. Ikawa, H. Kuriyaki
Res. Rep. Info. Sci. & Elec. Eng. Kyushu Univ.
Vol. 4 (1999) 191-194.
16. High Conductivity of Quasi-One-Dimensional Compound KFeS2 by Heat Treatment under Iodine Pressure
Y. Ikawa, H. Kuriyaki
Res. Rep. Info. Sci. & Elec. Eng. Kyushu Univ.
Vol. 4 (1999) 196-198.
17. X. G. Zheng, H. Kuriyaki, M. Suzuki, M. Taira, C. Xu, K. Hirakawa, Synthesis of 90 K ceramic superconductor Y0.9Ca0.1Ba2Cu4O8 at ambient oxygen pressure, Proc. of Int. Cryogenic Engineering Conf./Int. Cryogenic Materials Conf., pp. 1451-1453, 1997.06.
18. Tunneling Conduction in Quasi-One-Dimensional Compound KFe(S1-xSex)2
S. Nishioka, H. Kuriyaki, K. Hirakawa
Res. Rep. Info. Sci. & Elec. Eng. Kyushu Univ.
Vol. 2 (1997) 151-155.
19. X. G. Zheng, H. Kuriyaki, K. Hirakawa, Synthesis of Ca-substituted Y1-xCaxBa2Cu4O8 at Ambient Pressure Using CuI, Physica C, 10.1016/S0921-4534(96)00493-5, 271, 3-4, 272-276, Vol. 271, No. 3-4, pp. 272-276, 1996.10.
20. X. G. Zheng, H. Kuriyaki, K. Hirakawa, The Effect of an Intermediate SnI4-Coating Treatment on the Critical Transport Current of the High-Tc Superconductor YBCO, Superconductor Science & Technology, 10.1088/0953-2048/9/5/004, 9, 5, 358-362, Vol. 9, No. 5, pp. 358-362, 1996.05.
21. S. Nishioka, H. Kuriyaki, K. Hirakawa, Influence of Crystallinity on the Electrical Property of KFe(S1-xSex)2, Japanese Journal of Applied Physics, 10.1143/JJAP.35.648, 35, 2A, 648-651, Vol. 35, No. 2A, pp 648-651, 1996.02.
22. H. Kuriyaki, H. Berger, S. Nishioka, H. Kawakami, K. Hirakawa, F. A. Levy, Synthesis and characterization of BaVS3 single crystals grown in melted Te Synthetic Metals, Synthetic Metals, 10.1016/0379-6779(94)03160-8, 71, 1-3, 2049-2050, Vol. 71, pp. 2049-2050, 1995.05.
23. X. G. Zheng, H. Kuriyaki, K. Hirakawa, Simple synthesis of bulk YBa2Cu4O8 using copper iodine and bromide, Synthetic Metals, 10.1016/0379-6779(94)02969-6, 71, 1-3, 1601-1602, Vol. 71, pp. 1601-1602, 1995.05.
24. T. Nomiyama, H. Kuriyaki, K. Hirakawa, Photo-rechargeable battery using layer compound CuFeTe2, Synthetic Metals, 10.1016/0379-6779(94)03238-2, 71, 1-3, 2237-2238, Vol. 71, pp. 2237-2238, 1995.05.
25. S. Nishioka, H. Kuriyaki, K. Hirakawa, Electric Conduction in Quasi-One-Dimensional Compound KFeS2, Synthetic Metals, 10.1016/0379-6779(94)03087-M, 71, 1-3, 1877-1878, Vol. 71, pp. 1877-1878, 1995.05.
26. X. G. Zheng, A. Yamaguchi, H. Kuriyaki, K. Hirakawa, Effect of Water Vapor Processing on Microstructure and Superconducting Property of High-Tc Superconductors YBa2Cu3Ox and Bi1.85Pb0.35Sr1.90Ca2.05Cu3.05Oy, Japanese Journal of Applied Physics, 10.1143/JJAP.34.93, 34, 1, 93-97, Vol. 34, No. 1, pp 93-97, 1995.01.
27. X. G. Zheng, H. Kuriyaki, K. Hirakawa, Synthesis of Bulk YBa2Cu4O8 and Y1-xCaxBa2Cu4O8 at 1 atm Oxygen, Physica C, 10.1016/0921-4534(94)91441-9, 235, 435-436, Vol. 235-240, pp435-436, 1994.12.
Presentations
1. Photo-response characteristics of KFeS2 electrodes, S. Yoshitsune, Y. Kudo, H. Chen, M. Kozaki, H. Kuriyaki, K. Toko, The 78th JSAP Autumn Meeting,2017.9..
2. Relationship between Grain Size and Oygen Gas Response in CuFeTe2 Ceramics, H. Chen, Y. Tokunaga, S. Yoshitsune, M. Kozaki, H. Kuriyaki, K. Toko, The 78th JSAP Autumn Meeting,2017.9..
3. Yuta Tokunaga, Masatoshi Kozaki, Hisao Kuriyaki, Kiyoshi Toko,
Effect of Grain Size on the Response to Oxygen Gas of CuFeTe2 Ceramics,
Future Technologies from HIRADO Japan, 25am2-PS-075, 10.25.2016.
4. Masatoshi Kozaki, Yuta Tokunaga, Yezhi Huang, Hisao Kuriyaki, Kiyoshi Toko, Development of Layered Material CuFeTe2 Ceramics Based Oxygen Gas Sensor , IMCS 2016 - 16th International Meeting on Chemical Sensors, 2016.07.
5. Xiao Wu, Yusuke Tahara, Kiyoshi Toko, Hisao Kuriyaki, Fabrication of Taste Sensor for Education, The 11th Asian Conference on Chemical Sensors(ACCS2015), 2015.11.
6. Xiao Wu, Yusuke Tahara, Kiyoshi Toko, Hisao Kuriyaki, Fabrication of taste sensor as a science teaching materia, The 48th Colloquim on Perception International Five-Sense , 2015.03.
7. Xiao Wu, Kazushi Kuwamoto, Yusuke Tahara, Kiyoshi Toko, Hisao Kuriyaki, Development of Taste Sensor for Education, 15th IUMRS-International Conference in Asia, 2014.08.
8. Masatoshi Kozaki, Nobuhiko Nagashima, A. Ikeda, Hisao Kuriyaki, Kiyoshi Toko, Micro-fabrication of Layered Material CuFeTe2 using Centrifugal Etching for Oxygen Sensor, 15th IUMRS-International Conference in Asia, 2014.08.
9. Yota Amasaki, Yasuaki Kudo, Yatabe Rui, Hisao Kuriyaki, Kiyoshi Toko, Improvement of Photo-charged Quantity in Photo-rechargeable Battery Based on Photo-intercalation into Quasi-one Dimensional Compounds KFeS2, 15th IUMRS-International Conference in Asia, 2014.08.
10. Masatoshi Kozaki, Nobuhiko Nagashima, Akihiro Ikeda, Hisao Kuriyaki, Kiyoshi Toko, Micro-fabrication of layered material CuFeTe2 using centrifugal etching for oxygen sensor, 15th IUMRS-International Conference in Asia, 2014.08.
11. Study on micro-fabrication of layered material CuFeTe2 for oxygen sensor
Masatoshi Kozaki, Nobuhiko Nagashima, Hisao Kuriyaki, Kiyoshi Toko
The 2014 Annual Meeting of I. E. E. Japan
18Mar2014.
12. Masatoshi Kozaki, Nobuhiko Nagashima, Yukimasa Ikawa, Hisao Kuriyaki, Kiyoshi Toko, Novel Oxygen sensor Using Oxygen Intercalation on Layered Semiconductor CuFeTe2, 2013 International Conference on Solid State Devices and Materials (SSDM2013), 2013.09.
13. Development of Oxygen Sensor using Intercalation
Masatoshi Kozaki, Nobuhiko Nagashima, Lvmeng Wang, Hisao Kuriyaki, Kiyoshi Toko
The 2013 Annual Meeting of I. E. E. Japan
20Mar2013.
14. Trial production of a taste sensor kit for education
Hitoshi Arase, Masato Yasuura, Yusuke Tahara, Takeshi Onodera, Hisao Kuriyaki, Kiyoshi Toko
Technical Meeting on Sensor and Micromachines 2012 I. E. E. Japan
12Jun2012.
15. Masatoshi Kozaki, Yuichro Higuchi, Akihiro Ikeda, Hisao Kuriyaki, Kiyoshi Toko, Improvement in oxygen gas response using micro-fabrication of CuFeTe2 single crystal thin films, China-Japan Joint Symposium on Sensing Technology, 2012.04.
16. Improvement of Charge Quantity by Using Porous KFeS2 Electrodes
Yasuaki Kudo, Shogo Takenoshita, Rui Yatabe, Hisao Kuriyaki, Kiyoshi Toko,
The 59th Spring Meeting, 2012, The Japan Society of Applied Physics, 17th Mar. 2012.
17. Shogo Takenoshita, Rui Yatabe, Masatoshi Kozaki, Hisao Kuriyaki, Kiyoshi Toko, Photo-rechargeable Battery Based on Photo-induced Copper Intercalation into Quasi-One-Dimensional Compound KFeS2, 2011 International Conference on Solid State Devices and Materials (SSDM2011), 2011.09.
18. Intercalation of Copper Ion into Quasi-One-Dimensional Compound KFeS2
Shogo Tkakenoshita, Rui Yatabe, Masatoshi Kozaki, Hisao Kuriyaki, Kiyoshi Toko,
The 72th Autumn Meeting, 2011, The Japan Society of Applied Physics, 1st Sep. 2011.
19. Oxygen Gas Sensor Using Layered Semiconductor CuFeTe2
Masatoshi Kozaki, Shogo Takenoshita, Hisao Kuriyaki, Kiyoshi Toko
Technical Meeting on Sensor and Micromachines 2011, The Institutes of Electrical Engineers of Japan
30Jun2011.
20. New Type Oxygen Sensing Device using Oxygen Intercalation of Layered Semiconductor TiS2
T. Imamura, T. Nugroho, Y. Ikawa, K.Kishiro and H. Kuriyaki
.
21. T. Nugroho, A. Ikeda, Y. Kakihara, H. Kuriyaki, Y. Kuroki,New Type Oxygen Sensor Using Microfabricated Layered Semiconductor Compound,2007 International Conference on Solid State Devices and Materials (SSDM 2007),2007.09.21..
Membership in Academic Society
  • The Japan Society of Applied Physics
  • The Institute of Electronics, Information and Communication Engineers
  • The Physical Society of Japan
  • The Electrochemical Society of Japan
Educational
Educational Activities
Lectures offered:
Practice in Basic Information Processing (For undergraduates)
Elements of Electromagnetism (Global 30 project For undergraduates)
Fundamental physics (For undergraduates)
Electrical and Electronic Materials (For undergraduates)
Exercise in Electromagnetics(For undergraduates)
Advanced Bioelectronics(For graduates)
Modern Evaluation of Electronic Materials (For graduates)