/ 研 究 成 果 2011 since 1985 /
of Youichi
原著論文、総説・解説・著書、報告書・レポート、国際会議・国内シンポジウム:アブストラクト、プロシーディングス、その他
Created: May 29, 1998, Last
update: August 30, 2011
Web page creator: Youichi
Shimizu, KIT, shims@tobata.isc.kyutech.ac.jp
<原著論文>
1/ ガス拡散型電極・電極触媒・燃料電池に関する研究
(a) 酸素電極・PEFC・DMFC
ランタン系ペロブスカイト型酸化物上での酸素のカソード還元機構
Kinetics of Cathodic Oxygen Reduction on
Lanthanum-based Perovskite-type Oxides.
三浦則雄、清水陽一、山添 昇、清山哲郎、日化、1985、(4)、644-650 (1985).
ランタン系ペロブスカイト型酸化物触媒を用いたガス拡散型酸素電極
Gas Diffusion Electrode for Oxygen Reduction Loaded with Lanthanum-based Perovskite-type Oxides.
三浦則雄、清水陽一、山添 昇、日化、1986、(6)、 751-755 (1986).
遷移金属窒化物触媒を用いたガス拡散型酸素電極
Gas Diffusion Electrode for Oxygen Reduction Loaded with Transition Metal
Nitrides.
三浦則雄、堀内 甫、清水陽一、山添 昇、日化、1987、(4)、 617-622 (1987).
高表面積ペロブスカイト型酸化物を用いた酸素還元用ガス拡散電極
Gas-Diffusion Type Oxygen Cathode Loaded with Large Surface Area Perovskite-type Oxide.
清水陽一、三浦則雄、山添 昇、日化、1988、(8)、 1501-1503 (1988).
アルカリ溶液中での酸素の電気化学的還元用触媒としてのランタン系ペロブスカイト型酸化物
La-based Perovskite-type Oxide Catalysts for
Electrochemical Reduction of Oxygen in AlkalineSolution.
安藤正美、清水陽一、三浦則雄、山添 昇、九大総理工報告、10、(1)、 11-17(1988).
Gas-Diffusion Electrodes
for Oxygen Reduction Loaded with Large Surface Area La1−xCaxMO3(M=Co,Mn)
Y. Shimizu, K. Uemura, N. Miura, and N. Yamazoe,Chem. Lett., 1988, (12) 1979-1982 (1988).
High Performance
Gas-Diffusion Electrode Using Large Surface-Area Perovskite
Oxide for Zinc-Air Battery
N. Yamazoe,
Oxygen Sorption and
Catalytic Properties of La1−xSrxCo1−yFeyO3 Perovskite-Type Oxides
H.M. Zhang, Y. Shimizu, Y. Teraoka, N. Miura, and N. Yamazoe, J. Catal., 121,
(2) 432-440 (1990).
Bi-functional Oxygen Electrode
Using Large Surface Area La1−xCaxCoO3 for Rechargeable Metal-Air Battery
Y. Shimizu, K. Uemura, H. Matsuda, N. Miura, and N. Yamazoe, J. Electrochem. Soc., 137,
(11), 3430-3433 (1990).
高表面積La1−xCaxMO3(M=Co,Mn)触媒を用いたガス拡散型炭素電極の酸素還元特性と機構
Activity and Mechanism of Oxygen Reduction on Gas Diffusion-type Carbon
Electrode Loaded withLarge Surface Area La1−xCaxMO3(M = Co, Mn)
清水陽一、上村賢一、三浦則雄、山添 昇、日化、1990、 (12)、 1323-1328 (1990).
Bi-functional Oxygen
Electrode Using Large Surface Area Perovskite-type
Oxide Catalyst for Rechargeable Metal-Air Batteries
Y. Shimizu, H. Matsuda, N. Miura, N. Yamazoe, Chem. Lett., 1992, (6), 1033-1036 (1992).
Bi-functional Oxygen
Electrode for Rechargeable Metal-Air Batteries
Y. Shimizu, H. Matsuda, A. Nemoto, N. Miura, and N. Yamazoe, Progress in
Batteries & Battery Materials, 12,
108-114 (1993).
省電力型食塩電解セル用ガス拡散型酸素陰極材料の検討
Investigation of Materials for Gas Diffusion-Type Oxygen Cathode Aiming at
Electric Power-SavingBrine Electrolysis
兵頭健生、清水陽一、三浦則雄、山添 昇、電気化学、62 (2), 158-164 (1994).
Gas Diffusion-Type Oxygen
Electrode Using Perovskite-Type Oxides for
Rechargeable Metal-Air Batteries
Y. Shimizu, A. Nemoto, T. Hyodo,
N. Miura, N. Yamazoe, Denki Kagaku, 61 (12),
1458-1460 (1993).
Electrocatalytic Properties of Pyrochlore-Type Oxides in Acidic Electrolyte
Y. Shimizu, H. Suzuki,
J. Tokunaga, T. Ozaki, S. Takase, K. Tsujimoto, Y.
Uchida, ITE Letters on
Batteries, New Technology & Medicine, 4 (5), 582 -
586 (2003).
Sol-Gel Processing and Oxygen Electrocatalytic Properties of Metal-Sulfides
Y. Shimizu, T. Yano, H. Suzuki, S. Kouno, and T. Izumi, ITE Letters on Batteries, New Technology & Medicine, 4 (6), 752 - 758 (2003).
Electrocatalytic Properties of Nickel-Based Thiospinels for PEFC
Taro Ueda and Youichi
Shimizu, ITE Letters on Batteries, New
Technology & Medicine, 5
(5), 454-458 (2004).
Bi-functional Electrocatalytic
Properties of Pb-Ru-Based Pyrochlore-Type Oxide
T. Ozaki, S. Takase, and Y. Shimizu, ITE Letters on Batteries, New Technology & Medicine, 6 (4),
335-338 (2005).
A
Pyrochlore-Type Oxide Electrocatalyst
for DMFC
T.
Otsubo,
Electrocatalytic
Properties of Pyrochlore-Type Oxide for PEFC
Takuro Iwanaga, Satoko Takase, and Youichi Shimizu, ECS Transactions, 16 (2)
955-959 (2008).
Wet-Chemical Preparation and
Oxygen Reduction Properties of Nickel-Based Sulfide Electrocatalysts
for Polymer Electrolyte Fuel Cell
Wataru Iwaya, Satoko Takase, and Youichi Shimizu, Electrochemistry,
79 (5), 364-366 (2011).
(b) HBr気相電解
ガス拡散電極を用いた臭化水素の気相電解
Gas-phase Electrolysis of HBr Using PTFE-bonded
Carbon Electrode
清水陽一、三浦則雄、山添 昇、日化、1987、(8)、 1513-1517 (1987).
Gas-phase
Electrolysis of Hydrobromic Acid Using PTFE-bonded Carbon
Electrode
Y. Shimizu, N. Miura, and N. Yamazoe, Int. J. Hydrogen Energy, 13,(6), 345-349 (1988).
2/ 化学センサに関する研究
(a) プロトン導電体型常温作動ガスセンサ(混成電位型、電流型、四端子型)
CO and H2 Sensing Properties of Proton-Conductor Sensor
Using Pt-Loaded Oxide Electrode
N. Miura, K. Kanamaru, Y. Shimizu, and N. Yamazoe, Chem. Lett., 1989,
(7), 1103-1106 (1989).
プロトン導電体厚膜を用いた常温作動型酸素センサ
Oxygen Sensor Using Proton-Conductor Thick-Film Operative at Room Temperature
三浦則雄、吉田宣昭、又吉直子、清水陽一、桑田茂樹、山添 昇、日本セラミック協会学術論文集、97、(10)、 1300-1303 (1989).
Oxygen Sensor Using
Proton-Conductor Thick-Film Operative at Room Temperature
N. Miura, N. Yoshida, M. Matayoshi, Y. Shimizu, S. Kuwata, and N. Yamazoe, J. Ceram. Soc. Jpn.
Inter. Ed., 97, 1298-1301
(1989).
Cordless Solid-State
Hydrogen Sensor Using Proton-Conductor Thick-Film
N. Miura, T. Harada, Y. Shimizu, and N. Yamazoe, Sensors and Actuators, B1, 125-129 (1990).
Use of Oxide Electrodes for
Proton-Conductor Gas Sensor
N. Miura, K. Kanamaru, Y. Shimizu, and N. Yamazoe, Solid State
Ionics, 40/41, 452-455 (1990).
プロトン導電体(アンチモン酸)厚膜を用いた電流検出方式水素センサー
Amperometric Hydrogen Sensor Using Proton-Conductor (Antimonic Acid) Thick-Film
三浦則雄、原田達朗、清水陽一、山添 昇、日化, 1991,
(6), 736-740 (1991).
(b) 固体電解質型環境ガスセンサ(起電力型、混成電位型、限界電流型、インピーダンス型)
Solid Electrolyte CO2 Sensor Using Binary Carbonate Electrode
S. Yao, Y. Shimizu, N. Miura and N. Yamazoe, Chem. Lett., 1990, (12) 2033-2036 (1990).
Solid Electrolyte NO2 Sensors Fitted with Sodium Nitrate and/or Barium
Nitrate Electrodes
Y. Shimizu, Y. Okamoto, S. Yao, N. Miura, and N. Yamazoe,
Denki Kagaku, 59, (6), 465-472 (1991).
<電気化学協会論文賞受賞>
Carbon Dioxide Sensor Using
Sodium Ion Conductor and Binary Carbonate Auxiliary Electrode
N. Miura,
Solid Electrolyte CO2 Sensor Using NASICON and Li-based Binary Carbonate
Electrode
S. Yao, S. Hosohara, Y. Shimizu, N. Miura, H. Futata, N. Yamazoe, Chem. Lett., 1991 (11), 2069-2072 (1991).
Solid Electrolyte Carbon
Dioxide Sensor Using Sodium-Ion Conductor and Li2CO3-BaCO3Electrode
S. Yao, Y. Shimizu, N. Miura, N. Yamazoe,Jpn. J. Appl. Phys., 31,
(2B), L197-L199 (1992).
High-Performance
Solid-Electrolyte Carbon Dioxide Sensor with a Binary Carbonate Electrode
N. Miura, S. Yao, Y. Shimizu, N. Yamazoe,Sensors and Actuators B, 9,
165-170 (1992).
Use of Nitrite Auxiliary
Electrode for Solid Electrolyte Sensor to Detect Nitrogen Oxides
S. Yao, Y. Shimizu, N. Miura and N. Yamazoe, Chem. Lett., 1992, (4) , 587-590 (1992).
Solid-State Sensor for
Sulfur Oxides Based on Stabilized Zirconia and Metal Sulphate
Y. Yan, Y. Shimizu, N. Miura, N. Yamazoe,Chem. Lett., 1992, (4), 635-638 (1992).
Characteristics and Sensing
Mechanism of SOx Sensor Using Stabilized Zirconia and Metal Sulphate
Y. Yan, Y. Shimizu, N. Miura, N. Yamazoe,Sensors and Actuators B, 12,
77-81 (1993).
Influence of Oxygen on Detection
of Nitrogen Oxides with Solid Electrolyte Sensor Using NaNO3
S. Yao, Y. Shimizu, N. Miura, N. Yamazoe, Chem. Lett., 1993, (2), 193-196 (1993).
Development of High
Performance Solid Electrolyte Sensors for NO and NO2
N. Miura,
Solid Electrolyte Carbon
Dioxide Sensor Using Sodium Ionic Conductor and Lithium Carbonate-Based
Auxiliary Phase
S. Yao, Y. Shimizu, N. Miura, N. Yamazoe, Appl. Phys. A, 57, 25-29 (1993).
High Performance Solid
Electrolyte NO2 Sensor Using Auxiliary
Phase of Nitrite-Carbonate Mixture
S. Yao, Y. Shimizu, N. Miura, N. Yamazoe, Denki Kagaku, 61, (7), 903-904 (1993).
New Auxiliary Sensing
Materials for Solid Electrolyte NO2 Sensors
N. Miura, S. Yao, Y. Shimizu, N. Yamazoe, Solid State Ionics, 70/71, 572-577 (1994).
Carbon Dioxide Sensor Using
Combination of Fluoride Ion Conductor and Metal Carbonate
N. Miura, S. Yao, M. Sato, Y. Shimizu, S. Kuwata, N. Yamazoe, Chem. Lett., 1993
(11), 1973-1976 (1993).
Stabilized Zirconia Based CO2 Sensors Combined with
Carbonate Auxiliary Phase
N. Miura, Y. Yan, M. Sato, S. Yao, Y. Shimizu, N. Yamazoe,
Chem. Lett.,
1994 (2), 393-396 (1994).
Solid-state Potentiometric CO2 Sensors Using Anion
Conductor and Metal Carbonate
N. Miura, Y. Yan, M. Sato, S. Yao, S. Nonaka, Y.
Shimizu, N. Yamazoe, Sensors and Actuators B, 24-25,
260-265 (1995).
Sensing Mechanism of
ISFET-Based Hydrogen Sensor Using Proton-Conductive Thick-Film
N. Miura, T. Harada, N. Yoshida,Y. Shimizu,
Solid Electrolyte-Based NOx Sensor Using Auxiliary Phase of Metal Oxide
Y. Shimizu and K. Maeda, Chem. Lett., 1996
(2), 117-118 (1996).
安定化ジルコニアと酸化物電極を用いた積層厚膜型酸素センサ
清水陽一、石田雅樹、野田裕之、正寶敏貴、武藤行弘、電気学会E部門誌、118-E (2), 174-175 (1998).
Solid Electrolyte NOx Sensor Using Pyrochlore-Type
Oxide Electrode
Y. Shimizu and K. Maeda, Sensors &
Actuators B, 52, 84-89 (1998).
Solid Electrolyte CO2 Sensor Using NASICON and Perovskite-type
Oxide Electrode
Y.
Solid-State NOx Sensor Combined with NASICON and Pb-Ru-Based Pyrochlore-type Oxide
Electrode
Y. Shimizu, H. Nishi, H. Suzuki, and K. Maeda, Sensors & Actuators B, 65,
(1-3), 141-143 (2000).
NASICON薄膜を用いたプレーナー型CO2センサ
清水陽一、相田 健、電気学会E部門誌、120-E(10), 488-489 (2000).
Sensing Properties of
Solid Electrolyte SOx Sensor Using Metal-Sulfide
Electrode
Solid-State
SO2 Sensor Using a Sodium-Ionic Conductor and a Metal-Sulfide
Electrode
Y.
Shimizu, M. Okimoto, and N. Souda,
Int. J. Appl. Ceram. Tech., 3 (3) 193-199 (2006).
A
NOx Sensor Using Solid Electrolyte Impedance
Transducer and Perovskite-Type Oxide Receptor
Y.
Shimizu, D. Koba, H. Saitoh
and S. Takase, ECS Transactions, 1 (7), Solid State Ionic Device IV, 131-140 (2006).
A
Solid Electrolyte Impedancemetric NOx
Sensor Using Oxide Receptor
D.
Koba, S. Takase, and Y. Shimizu, ECS Transactions,
3 (10), 163-171 (2006).
A NOx Sensor Based on
Solid-Electrolyte Impedance Transducer
Y. Shimizu, S. Takase, D. Koba, Adv.
Mater. Res., 47-50, 479-482
(2008).
Preparation of Perovskite-Type SmFeO3 Thin-Film and Gas Sensing
Properties to Acetylene
Tomohisa
Tasaki, Satoko Takase, Youichi Shimizu, Sensor
Lett. 9 (1), 51-54 (2011).
(c) 環境イオンセンサ(起電力型、限界電流型、インピーダンス型)
Sensing
Characteristics of Hydrogen Peroxide Sensor Using Carbon-based Electrode Loaded
with Perovskite-type Oxide
Y. Shimizu, H. Komatsu, S. Michishita (Takase), N. Miura,
and N. Yamazoe, Sensors
and Actuators B, 34, (1-3),
493-498 (1996).
金属リン酸塩系レセプターを用いたリン酸イオンセンサの設計
Design of Phosphate-ion Sensor Based on Metal-Phosphate Receptor
清水陽一、道下(高瀬)聡子、景山 輝、山本聖子、小寺 修、九州工業大学研究報告(工学), No. 69,
63-67 (1997).
Electrochemical Phosphate-Ion
Sensor Based on Carbon Electrode Loaded with Perovskite-Type
Oxide
Y. Shimizu, O. Kodera, and S. Takase, Bull.
of the Kyushu Inst. of Tech., No. 70,
43-46 (1998/3).
ペロブスカイト型酸化物系電極と固体高分子電解質を用いた過酸化水素センサ
清水陽一、高瀬聡子、電気学会E部門誌、118-E (1), 53-54 (1998).
Perovskite-Type Oxide Based
Electrode: A New Sensor for Hydrogen-Phosphate Ion
Y. Shimizu, A. Ishikawa, K. Iseki, and S. Takase, J. Eletrochem. Soc., 147 (10), 3931-3934 (2000).
ペロブスカイト型酸化物−カーボン電極を用いたアンペロメトリック過酸化水素センサ
高瀬聡子、石川文俊、清水陽一、Electrochemistry、69 (4), 272-275 (2001).
A Hydrogen-Phosphate Ion Sensor Using Solid Electrolyte
Impedance Transducer and Perovskite-Type Oxide
Receptor
M.
Yoshida, N. B. Ibrahim, Y. L. Aung, S. Takase, and Y.
Electrochemical
Ceramic Device for Hydrogen-Phosphate Ion Sensor
Y.
Shimizu, S. Takase, and M. Yoshida, Adv. Sci. Tech., 45,
1792-1798 (2006).
Preparation
and Anion Sensing Properties of Perovskite-Type Oxide
Thick-Film via EPD Method
S.
Takase, T. Inagaki and Y. Shimizu, ECS Transactions, 3 (9),
211-219 (2006).
Preparation
of Perovskite-Type Oxide Fine Powder by Polymer
Precursor Method and Fabrication of Thick-Film Device via EPD Process for
Phosphate Ion Sensor
S.
Takase, T. Matsumoto and Y. Shimizu, ITE Lett., 7 (6), 579-582 (2006).
Preparation
of Amperometric Hydrogen-Phosphate Ion Sensor Based
on Perovskite-Type Oxide Thick-Film by EPD Process
Satoko
Takase, Toshikazu Matsumoto, and Youichi Shimizu, Electrochemistry, 78,
150-152 (2010).
3/ 新規オプティカルデバイスに関する研究
(a) エレクトロクロミックデバイス
酸含浸半固体型WO3素子のエレクトロクロミック特性
Electrochromic Properties of Semisolid Device Using
WO3-Sputtered Film and Acid-Containing SolidElectrolyte
清水陽一、野田和彦、三浦則雄、山添 昇、九大総理工報告、11、(1)、7-12 (1989).
New Preparation Process of
V2O5 Thin-Film Based on
Spin-coating from Organic Vanadium Solution
Y. Shimizu, K. Nagase, N. Miura and N. Yamazoe, Jpn. J. Appl. Phys., 29, (9), L1708-L1711 (1990).
タングステンカルボン酸を用いた湿式法によるWO3薄膜の作製とそのエレクトロクロミック特性
Preparation of WO3 thin Film from Tungsten-Carboxylate
Solution and Its Electrochromic Properties
清水陽一、野田和彦、長瀬克己、三浦則雄、山添 昇、九大総理工報告, 12,
(4), 367-373 (1991).
Electrochromic Properties of V2O5 Thin Films Prepared by New
Wet Process
K. Nagase, Y. Shimizu, N. Miura, N. Yamazoe, Appl. Phys. Lett.,
60 ,(7), 802-804 (1992).
Electrochromic Properties of Spin-Coated
V2O5 Thin-Films
Y. Shimizu, K. Nagase, N. Miura, N. Yamazoe, Solid State Ionics, 53-56, 490-495 (1992).
Electrochromism of Vanadium-Titanium Oxide
Thin Films Prepared by Spin-coating Methods
K. Nagase, Y. Shimizu, N. Miura, N. Yamazoe, Appl. Phys. Lett.,
61, (3), 243-245 (1992).
ゾル−ゲル法によるバナジウム−チタン系酸化物薄膜の作製とそのエレクトロクロミック特性
長瀬克己、清水陽一、三浦則雄、山添 昇 、J. Ceramic Soc. Jpn., 101
(9), 1032-1037 (1993).
Electrochromism of Gold-Vanadium Pentoxide Composite Thin Films Prepared by Alternating
Thermal Deposition
K. Nagase, Y. Shimizu, N. Miura, N. Yamazoe, Appl. Phys. Lett.,
64 (9), 1059-1061 (1994).
交互蒸着法による金属ー酸化バナジウム系薄膜の作製とそのエレクロトクロミズム
長瀬克己、清水陽一、三浦則雄、山添 昇、J. Ceramic Soc. Jpn., 102
(6), 571-577 (1994).
Preparation of
Metal-Vanadium Oxide Thin Films by Alternate Thermal Decomposition for New Electrochromic Coloration
K. Nagase, Y. Shimizu, N. Miura, N. Yamazoe, J. Ceramic Soc. Jpn.
Int. Ed., 102, 570-576 (1994).
Preparation of
Gold-Dispersed Vanadium Oxide Thin Films by Alternate Spin-Coating Method for Electrochromic Application
K. Nagase, S. Izaki, Y. Shimizu, N. Miura, N. Yamazoe, J. Mater.
Chem., 4 (10), 1581-1584 (1994).
(b) フォトルミネッセンスデバイス
Surface Luminescence
Patterning of Cu+-Doped β"-Al2O3 Single-Crystal Films
Y. Shimizu, C. K. Kuo, P. S. Nicholson, Solid State Ionics, 110 (1-2), 69-72 (1998).
Preparation
of NASICON-Based Ceramic Thick-Film with Electrophoretic
Deposition for Solid-State Photoluminescence Device
Y. Shimizu, S. Takase, K. Ida, M. Imamura, I. Koguma, Key Engineering Materials,
412, 107-111 (2009).
Synthesis
of NASICON-Type Luminescent Ceramics
Ikuhiro Koguma, Kengo Oishi, Satoko Takase, and
Youichi Shimizu, ECS Transactions, 16 (31),
81-86 (2009).
(c) エレクトロクロミック型イオンセンサデバイス
An
Opto-Electrochemical Phosphate-Ion Sensor Using a
Cobalt-Oxide Thin-Film Electrode
Y. Shimizu, Y. Furuta,Solid State Ionics, 113-115, 241-245 (1998).
Optical Phosphate-Ion
Sensor Based on Electrochromism of Metal-Oxide
Thin-Film Electrode
Y. Shimizu, Y. Furuta, T. Yamashita, Trans of IEE Jpn.,119-E (5), 285-289 (1999).
Electrochromic Phosphate-Ion Sensor Based on Nickel-Oxide
Thin-Film Electrode
Y. Shimizu, , T. Yamashita and S. Takase, Jpn. J. Appl. Phys., 39 (4B),
L384-L386 (2000).
Optoelectrochemical Hydrogen-Phosphate Ion Sensor Based on Electrochromism of Spinel-Type
Oxide Thin-Film Electrode
Y. Shimizu and M. Shiotsuka, Jpn. J. Appl.
Phys., 41 (10 ) 6243-6246
(2002).
Electrochromic Properties of Mixed Metal Oxide Thin-Film and Its
Application to Nitrate-Ion Sensor
T.
Takeyasu, S. Takase and Y. Shimizu, ECS
Transactions, 3 (38), 1-6 (2007).
<2006 ECS Student Poster
Session Awardee’s Paper>
4/ 酸化物高温超伝導体に関する研究
Oxygen
Adsorption-Desorption Behavior and Superconducting Properties of High Tc Bi(Pb)-Sr-Ca-Cu-O
N. Miura, H. Suzuta, Y. Deshimaru,
Y. Shimizu, H. Sakashita, and N. Yamazoe,
Jpn. J. Appl. Phys., 28(7), L1112-L1114 (1989).
Effects of Oxygen
Sorption-Desorption on Superconductivity of High-Tc
Bi(Pb)-Sr-Ca-Cu-O
N. Miura, H. Suzuta, Y. Deshimaru,
Y. Shimizu, H. Sakashita, and N. Yamazoe,
Mol. Cryst.
Liq. Cryst., 184,
189-193 (1990).
Bi-Pb-Sr-Ca-Cu-O系高Tc相(2223相)の合成条件の検討
Synthetic Conditions of High-Tc (2223) Phase of Bi-Pb-Sr-Ca-Cu-O Superconductor
弟子丸雄一、大谷哲也、清水陽一、三浦則雄、山添 昇、日化、1990、 (12)、 1329-1335 (1990).
Bi系酸化物超伝導体(2212相)の酸素収脱着挙動と超伝導特性
Oxygen Sorption-Desortion Behavior and
Superconductivity of Bi-based Oxide Superconductor(2212 phase)
弟子丸雄一、大谷哲也、清水陽一、三浦則雄。山添 昇、セラミックス論文誌、99、(9)、 774-779 (1991).
Oxygen Sorption-Desortion Behavior and Superconductivity of Bi-based Oxide
Superconductor (2212 phase)
Y. Deshimaru, T. Otani, Y.
Shimizu, N. Miura, N. Yamazoe, J. Ceramic Soc. of Jpn., Inter. Ed., 99 (9), 758-763 (1991).
Relation between Oxygen
Content and Superconductivity in Bi-Sr-Ca-Cu-O System
N. Miura, Y. Deshimaru, T. Otani,
Y. Shimizu, N. Yamazoe, Physica C, 185-189, 779-780
(1991).
Influence of Oxygen Content
on the Superconductivity of Bi-Based Oxides Homologous to 2212 Phase
Y. Deshimaru, T. Otani, Y.
Shimizu, N. Miura, N. Yamazoe, Jpn. J. Appl. Phys., 30,
(10B), L1798-L1801 (1991).
Bi系酸化物超伝導体における酸素含量、変調構造および超伝導特性の相関
Relationship between Oxygen Content, Modulation Period and Superconducting
Property of Bi-BasedSuperconducting Oxides
弟子丸雄一、清水陽一、三浦則雄、山添 昇、広井善二、坂東尚周、日化、1992, (9), pp. 938-943 (1992).
Tc Enhancement of Excess Sr-Doped
Bi-2223 Oxides by Control of Oxygen Content
N. Miura, F. Sakata, Y. Shimizu, Y. Deshimaru, N. Yamazoe, Physica C, 235-240, 479-480 (1994).
Relationship between Oxygen
Content and Seebeck Coefficient of Bi-based
Superconducting Oxides
N. Miura, F. Sakata, Y. Shimizu, Y. Deshimaru, N. Yamazoe, Physica C, 235-240, 481-482 (1994).
Bi-Sr-Ca-Cu-O系におけるゼーベック係数、酸素含量、及び超伝導特性の相関
三浦則雄、坂田郁晃、清水陽一、弟子丸雄一、山添 昇、J. Ceramic Soc. Jpn., 103 (2),
172-176 (1995).
Relationships among Seebeck Coefficient, Oxygen Content and Superconductivity
of Bi-Sr-Ca-Cuprates
N. Miura, F. Sakata, Y. Shimizu, Y. Deshimaru, N. Yamazoe, J. Ceramic
Soc. Jpn. Int. Ed., 103, 173-177 (1995).
5/ セラミックスの湿式プロセッシングに関する研究
(a) 固体電解質ディスク
Preparation of Sodium Ionic
Conductor Based on Sol-Gel Method Using Aqueous Solution
Y. Shimizu, S. Michishita (Takase), T. Murata, Jpn. J. Appl. Phys., 34, (7A) L833-L836 (1995).
Sol-Gel Synthesis of
NASICON-Discs from Aqueous Solution
Y. Shimizu, Y. Azuma, and
Preparation of High Lithium-Ion
Conductive Ceramic
K. Oda, S. Takase, and Y.
Shimizu, Material Science Forum, 544-545,
1033-1036 (2007).
(b) 酸化物セラミックス厚膜・薄膜
Sol-Gel
Synthesis of Perovskite-type Lanthanum Manganite Thin-Film and Fine Powder Using Metal-Acetylacetonate and Polyvinel
Alcohol
Y. Shimizu and T. Murata, J. Am. Ceram.
Soc., 80 (10), 2702-0704 (1997).
Sol-Gel Processing of NASICON Thin-Film Using
Aqueous Complex Precursor
Y. Shimizu and T. Ushijima, Solid State Ionics, 132, (1-2), 143-148 (2000).
Sol-Gel Synthesis of Perovskite-Type Oxide Thin-Film with Acetylacetone-Modified
Poly(Vinyl Alcohol)-Based Polymeric
Precursor Method at Low Temperature for Chemical Sensor
T. Iseri, M.
Kawasaki, S. Takase, and Y. Shimizu, ITE Lett., 5
(3), 231-236 (2004).
Sol-Gel Synthesis of Perovskite-Type Oxide Thin-Film with Metal Organic-Acid and
Its Application to Amperometric
Hydrogen-Phosphate Ion Sensor
K. Tsuchida, S.
Takase, Y. Shimizu, Sensors and Materials,
16 (3), 171-180 (2004).
(c) セラミックス関連・その他
Y. Shimizu and T. Yano, Chem. Lett., 2001
(10), 1028-1029 (2001).
Effect of preparation routes on the
catalytic activity over SmFeO3 oxide
Masami
Mori, Yuji Iwamoto, Makiko Asamoto, Yoshiteru Itagaki, Hidenori Yahiro, Yoshihiko Sadaoka, Satoko Takase, Youichi Shimizu, Masayoshi Yuasa, Kengo Shimanoe, Hajime Kusaba, Yasutake Teraoka, Catalysis Today, 139 (1-2), 125-129
(2008).
Preparation of Perovskite-Type
Oxide Fine-Powder by Polymer Precursor Method
Satoko
Takase, Soichiro Suzuki, Toshikazu Matsumoto, and
Youichi Shimizu, ECS Transactions, 16 (25),
87-90 (2009).
6/ ナノデバイスの設計に関する研究
(a) 有機金属錯体のナノ制御
An STM Observation
of Adsorption of CuPc on the Si(100) Surface with
Bi-line Structures
S. Nakamura, S. Kashirajima, Y.
Johdai, Y. Yoshiwa, M. Naitoh, S. Nishigaki, Y. Shimizu,
T. Ikari, and F. Shoji, Surface Review and Letters,
14 (5), 1-5 (2007).
<総説・解説・著書等>
フロンガスセンサのニーズと手法
山添 昇、清水陽一、センサ技術、9、 45-47 (1989).
3.2 ガスセンサ−
山添 昇、清水陽一 、改討四版分析便覧、日本分析化学会編、丸善、pp.309-314
(1991,11)
第4章バイオ・化学センシング、4.6環境センシング
山添 昇、清水陽一、アドバンストセンサハンドブック(培風館)、高橋 清、佐々木昭夫共編, pp. 209-216. (1994,5)
センサ機能・材料の先端技術動向、5章化学センサ、5.4固体電解質材料
山添 昇、清水陽一、電気学会技術報告第461号、電気学会、pp.51-58 (1993,4)
セラミックス系電極触媒の新しい展開
清水陽一、化学と工業、48 (9), p.1085 (1995).
固体電解質センサの評価法・測定例
清水陽一、電化、63 (9), pp.794-798 (1995).
エレクトロクロミックデバイスによるリン酸イオンセンシング
清水陽一、化学センサ、14 (4), pp.180-186 (1998).
理工系 化学実験 -基礎と応用-(初版)
坂田一矩、吉永鐵大郎、柘植顕彦、清水陽一、荒木孝司編著、東京教学社、(1999).
理工系 化学実験 -基礎と応用-(訂正2刷)
坂田一矩、吉永鐵大郎、柘植顕彦、清水陽一、荒木孝司編著、東京教学社、(2000).
理工系 化学実験 -基礎と応用-(新刊:初版)
坂田一矩、吉永鐵大郎、柘植顕彦、清水陽一、荒木孝司編著、東京教学社、(2001).
ペロブスカイト型酸化物のプロセッシングとセンサデバイスへの応用
清水陽一、化学センサ、17 (1), pp.2-11 (2001).
「固体イオン伝導体とその応用」ガスセンシングデバイスの応用
三浦則雄、清水陽一、マテリアルインテグレーション, 14 (11), 71-76 (2001).
センサ技術の基礎「ガス・イオンセンサ」
清水陽一、電気評論、89 (5), 56-61 (2004).
ナノ薄膜電極を用いた環境イオンセンサ
清水陽一、化学工業、56 (11),
858-863 (2005).
セラミックス高機能性電極による新規センサデバイスの構築
清水陽一、化学センサ、21 (2), 24-32 (2005).
環境汚染物質のセンシング
島ノ江憲剛、清水陽一、定岡芳彦、寺岡靖剛、環境管理、42 (7), 39-44 (2006).
サイエンス工房―教育体験型学習課目の構築―
清水陽一、九工大・教育ブレティン、No. 3, 25-29 (2006).
理工系 化学実験 -基礎と応用-(第2版)
坂田一矩、吉永鐵大郎、柘植顕彦、清水陽一、横野照尚、愛甲博美、荒木孝司編著、東京教学社、(2007).
NASICONを用いたガスセンサ
清水陽一、マテリアルインテグレーション, 21,
No.5/6, 58-62 (2008).
第2章 固体電解質を用いたガスセンサ 第3節 NASICONを用いたガスセンサ
清水陽一、先進化学センサ(ガス・バイオ・イオンセンシングの最新技術), 電気化学会化学センサ研究会編,(株)ティーアイシー, 62-66 (2008).
高機能性セラミックス電極による新規センサデバイスの構築
清水陽一, セラミックス, 44 (2), 98-102 (2009).
金属空気電池用電極材料の開発と課題
清水陽一, 高性能蓄電池 ―設計基礎研究から開発・評価まで―, NTS, pp. 371-375 (2009).
理工系 化学実験 -基礎と応用-(第3版)
坂田一矩, 吉永鐵大郎, 柘植顕彦, 清水陽一, 横野照尚, 愛甲博美, 佐藤幸子, 荒木孝司編著, 東京教学社 (2009).
第6編燃料電池触媒, 第2章 PEMFC-費貴金属電極, 6節 パイロクロア型酸化物の合成
清水陽一, 触媒調製ハンドブック, pp.568-569(2011) NTS.
第9章 「金属・空気水系電池の空気極触媒」
清水陽一,「金属空気2次電池の研究開発と最新技術」, pp.105-111
(2011)
技術教育出版.
<報告書、レポート>
常温作動が可能な新しい固体素子型化学センサの開発
山添 昇、三浦則雄、清水陽一、玉置 純、岩谷直治記念財団研究報告書、Vol.
13, pp. 67-69 (1990).
Oxygen Semipermeable
Membrane Using Mixed Conductive Ceramics
N. Yamazoe, N. Miura, Y. Shimizu, J. Tamaki, Report of Science Research on Priority Area,
Ministry of Education, Science Culture,"Energy
Conversion and Utilization with High Efficiency, D03-16, pp. 239-242 (1990).
2成分系炭酸塩電極を用いた固体電解質炭酸ガスセンサの開発
姚 勝、清水陽一、三浦則雄、山添 昇、センサ技術研究会資料, ST-91-13,
p. 17-26 (1991).
Influence of Oxygen Content
on the Superconductivity of high-Tc Superconducting
Oxides
N. Yamazoe, N. Miura, Y. Shimizu, Y. Deshimaru , Report of
Science Research on Priority Area, Ministry of Education, Science Culture,"Chemical Designing and Processing of High-Tc Superconductors", pp. 111-116 (1993).
汚染物質の高感度検出用センサに関する研究
清水陽一、文部省特定研究"地球環境保全に資する資源有効利用法および新技術システムの開発とその評価に関する研究"、研究成果報告書、p. 14-16 (1996,3).
固体電解質を用いた高性能リン酸イオンセンサの開発
清水陽一、日本板硝子材料工学助成会成果報告書、15,112-118 (1997).
学会レポート”第25回化学センサ研究発表会”
清水陽一、Chem. Sensors, 13 (4), 136-137
(1997).
学会レポート”第26回化学センサ研究発表会”
清水陽一、Chem. Sensors, 14 (1), 18-23
(1998).
学会レポート”Transducers'99”
星 友典、酒井 剛、中込真二、外山 滋、清水陽一、Chem. Sensors, 15 (2),
86-93 (1999).
多機能型及び電気化学型原子間力顕微鏡
清水陽一、近浦吉則、機器分析センターニュース、No. 8, 39-43 (1999).
固体電解質厚膜型窒素酸化物センサの開発
清水陽一、谷川熱技術振興基金事業報告書、18, 27-28 (2000).
Tanigawa Foundation Annual Report (2000/6)
学会レポート”第32回化学センサ研究発表会
酒井 剛、兵頭健生、清水陽一、青野宏通、星 友典、西山勝彦、長谷部 靖、Chem. Sensors, 17
(2), 56-63 (2001).
学会レポート”第35回化学センサ研究発表会”
矢吹聡一、勝 孝、長谷部 靖、安斉順一、星 友典、清水陽一、松口正信、中込真二、兵頭健生、Chem. Sensors, 18
(4), 172-179 (2002).
学会レポート”第36回化学センサ研究発表会”
鈴木博章、矢吹聡一、飯田泰広、外山 滋、吉見靖男、石原達己、清水陽一、松口正信、玉置 純、Chem. Sensors, 19
(2), 70-76 (2003).
学会レポート”第10回化学センサ国際会議”
松口正信、飯田泰広、青野宏通、石地 徹、石原達己、伊豆典哉、大藪多可志、勝部昭明、近藤 淳、佐藤 緑、島ノ江憲剛、清水陽一、庄山昌志、鈴木博章、鈴木正康、立間 徹、田中 剛、玉置 純、外山 滋、中込真二、中原 毅、南戸秀仁、長谷部 靖、春山哲也、兵頭健生、吉信達夫、吉見靖男、Chem. Sensors, 20 (3), 129-153
(2004).
学会レポート” 2004電気化学日米合同大会”
兵頭健生、島ノ江憲剛、玉置 純、外山 滋、飯田泰広、加藤 大、鈴木博章、清水陽一、清水康博、伊豆典哉、Chem. Sensors, 20 (4), 181-187
(2004).
学会レポート” The 13th Intern. Conf. on
Solid-State Sensors, Actuators and Microsys.,
TRANSDUCERS ’05”
玉置 純、勝部昭明、三林浩二、鈴木博章、鈴木正康、申ウソク、兵頭健生、清水陽一、Chem. Sensors, 21 (3), 107-114
(2005).
研究室便り、九州工業大学工学部物質工学科無機材料化学研究室、「新規な電気化学センサデバイスの設計・開発」
清水陽一、高瀬聡子、電気学会誌E準部門誌, 125 (8), (2005).
水環境保全のための環境イオンセンサの開発―環境都市北九州から世界へ―
清水陽一, 九工大通信, 33, 4 (2008).
<国際会議・国内シンポジウム:アブストラクト、プロシーディングス>
High-Performance
Solid-Electrolyte Sensor Using Binary Carbonate Electrode for Detecting
Atmospheric Carbon Dioxide
N. Miura, S. Yao, Y. Shimizu, and N. Yamazoe, Proc. Fukuoka Int. Symp.
'90, p. 341 (P7-4) (1990).
High-Performance Solid
Electrolyte CO2 Sensor Fitted with Binary
Carbonate Electrode
N. Miura, S. Yao, Y. Shimizu, N. Yamazoe, Digest of Technical Papers, The 6th Int.
Conf. Solid-State Sensors and Actuators, San Francisco,Transducers
'91, pp.558-561 (1991).
Solid Electrolyte NOx Sensor Using Binary
Nitrate Electrode
S. Yao, Y. Shimizu, N. Miura, N. Yamazoe,Technical Digest of the 10th Sensor Symposium., Tokyo, pp.57-60 (1991).
An Approach to Solid
Electrolyte NOx Sensor
N. Yamazoe, S. Yao, Y. Shimizu, N. Miura, Proc. of the Korea-Japan Joint Symp. on Chem. Sensors '91, pp. 122-127 (1991).
Solid Electrolyte CO2
Sensor Coupling NASICON with Li-based Binary Carbonate Auxiliary Electrode
S. Yao, Y. Shimizu, N. Miura, N. Yamazoe, Proc. of the Intern. Symp.
on Fine Ceramics Arita '91, Vol. 6, p. 168-169
(1991).
Bi-functional Oxygen
Electrode Using Large Surface Area Perovskite-type
Oxide Catalyst
Y. Shimizu, N. Miura, N. Yamazoe, Abstracts for the 7th International Symposium
on Relations Between Homogeneous and Heterogeneous Catalysis, pp.548-549
(1992).
Novel Solid Electrolyte CO2
Sensor Using Sodium Ion Conductor and Lithium-Based Carbonate Electrode
N. Yamazoe, S. Yao, Y. Shimizu, N. Miura, 181st Meeting of The Electrochemical
Society, Extended Abstracts of Symposium on HighTemperature
Sensors, St. Louis (1992) pp.561-562.
Solid-State Sensor for
Sulfur Oxides Based on Stabilized Zirconia and Metal Sulphate
Y. Yan, Y. Shimizu, N. Miura, N. Yamazoe, Proc. of '92 Harbin China-Japan Sci. Symp. on Electronic Sensing Tech., pp.118-120 (1992).
Bi-functional Oxygen
Electrode for Rechargeable Metal-Air Batteries
Y. Shimizu, H. Matsuda, A. Nemoto, N. Miura, N. Yamazoe, Extended
Abstracts of the Tianjin International Power Sources Symposium, pp. 53-54
(1992).
Sensing Performance and
Mechanism of Carbon Dioxide Sensor Using Sodium-Ion Conductor and Binary
Carbonate System
S. Yao, Y. Shimizu, N. Miura, N. Yamazoe, Proc. of Intern. Conf. on Electronic
Components and Materials,
Development of High
Performance Solid Electrolyte Sensors for NO and NO2
N. Miura,
Solid Electrolyte NO2 Sensor Fitted with Auxiliary Phase of Sodium
Nitrite-Alkali Carbonate Mixture
S. Yao, Y. Shimizu, N. Miura, N. Yamazoe, Proc. of the Symposium on Chemical Sensors
II, Hawaii, pp.400-406 (1993).
High-Performance Solid
Electrolyte SOx Sensor Using Stabilized Zirconia and Multicomponent
Auxiliary Phase
Y. Yan, Y. Shimizu, N. Miura, N. Yamazoe, Digest of Technical Papers, The 7th Int.
Conf. Solid-State Sensors and Actuators, Yokohama,Transducers
'93, pp.356-359 (1993).
Sensing Mechanism of Solid
Electrolyte CO2 Sensor Using NASICON and Metal-Carbonate Auxiliary
Phase
S. Hosohara, Y. Shimizu, S. Yao, N. Miura, N. Yamazoe, Proc. of the
East Asia Conference on Chemical Sensors,
Perovskite-type Oxides as Bi-functional
Oxygen Electrode Catalysts
A. Nemoto, T. Hyodo, Y.
Shimizu, N. Miura, N. Yamazoe, Proceedings of the First Korea-Japan Joint Seminar on Electrochemistry,Seoul, pp. 189-190 (1993).
Potentiometric CO2 Sensors Using Combination of Anion (F-,O2-)
Conductor and Carbonate
N. Miura, Y. Yan, M. Sato, S. Yao, Y. Shimizu, N. Yamazoe,
Technical Digests of The 5th
International Meeting on Chemical Sensors, Rome, Vol. 1,pp. 336-339 (1994).
FET-Based Micro H2
Sensor Using Proton-Conductor Thick-Film
N. Miura, T. Harada, N. Yoshida,Y. Shimizu, N. Yamazoe, Technical
Digests of The 5th International Meeting on Chemical Sensors, Rome, Vol. 2,
pp. 632-635 (1994).
Tc Enhancement of Excess Sr-Doped
Bi-2223 Oxides by Control of Oxygen Content
N. Miura, F. Sakata, Y. Shimizu, Y. Deshimaru, and N.
Yamazoe, Abstracts
of 4th International Conference on Materials & Mechanisms of SuperconductivityHigh-Temperature Superconductors,
TU-PS 17 (1994).
Relationship between Oxygen
Content and Seebeck Coefficient of Bi-based Superconducting
Oxides
N. Miura, F. Sakata, Y. Shimizu, Y. Deshimaru, and N.
Yamazoe, Abstracts
of 4th International Conference on Materials & Mechanisms of
Superconductivity High-Temperature Superconductors, TU-PS 18 (1994).
ペロブスカイト型酸化物担持カーボン電極の過酸化水素検出挙動
H2O2 Sensing Properties of
Carbon Electrode Loaded with Perovskite-type Oxide
清水陽一、小松宏紀、道下(高瀬)聡子、三浦則雄、山添 昇、Chem. Sensors, 11, Sup. A,
105-108 (1995).
Hydrogen Peroxide Sensor
Based on Carbon Electrode Loaded with Perovskite-type
Oxide
Y. Shimizu, H. Komatsu, S. Michishita (Takase), N.
Miura, N. Yamazoe, Digest of Technical Papers, the 8th Int. Conf. Solid-State Sensors and
Actuators, Stockholm,Transducers'95 & Eurosensors
IX, pp. 981-984 (1995).
パイロクロア型酸化物電極を用いたNASICON系NOxセンサ
NASICON-based NOx Sensor Attached with Pyrochlore-type Oxide Electrode
清水陽一、前田浩二、Chem. Sensors, 13, Sup.A, 89-92 (1997).
ペロブスカイト型酸化物系電極のリン酸イオン検出特性
Phosphate-Ion sensing Properties of Carbon-Based Electrode Loaded with Perovskite-type Oxide
高瀬聡子、小寺 修、井関宏二、清水陽一、Chem. Sensors, 13, Sup.A, 173-176 (1997).
酸化物薄膜電極を用いたオプティカルリン酸イオンセンサ
Opto-Electrochemical Phosphate-Ion Sensor Based on
Metal-Oxide Thin-Film Electrode
清水陽一、古田雄介、Chem. Sensors, 13, Sup.B, 81-84 (1997).
Opto-Electrochemical Phosphate-Ion Sensor Using
Metal-Oxide Thin-Film Electrode
Y. Shimizu and Y. Furuta, Extended Abstracts 11th
Intern. Conf. on Solid State Ionics, Honolulu,(1997), p.168.
Pb-Ru-O系パイロクロア型酸化物電極を用いた固体電解質NOxセンサ
Solid Electrolyte NOx Sensor Using Pb-Ru-Based Pyrochlore-Type
Oxide Electrode
清水陽一、西 裕美、山下南美、Chem. Sensors, 14, Sup.A, 65-68 (1998).
Optical Phosphate-Ion
Sensor Based on Electrochromism of Metal-Oxide
Thin-Film Electrode
Y. Shimizu, Y. Furuta and T. Yamashita, Tech. Digest of 16th Sensor Symp., Kanagawa,(1998), pp.115-118.
Solid Electrolyte NOx Sensor Attached with Pyrochlore-type
Oxide Electrode
Y. Shimizu, H. Nishi, and N. Yamashita, Technical
Digests of The 7h International Meeting on Chemical Sensors,
<Distinguished Paper Award of
7-IMCS >
Electrochromic Sensor for Phosphate-Ion
with Metal-Oxide Thin-Film
Y. Shimizu, T. Yamashita, and S. Takase, Abstracts
of Int. Symp. on Electrochem.
of Ordered Interfaces,
Electrocatalytic Properties of Pyrochlore-type Oxide Prepared via
Y. Shimizu and H. Suzuki, Extended
Abstracts of 49th Annual Meet. on Int. Soc. of Electrochem.,
Solid-State H2O2 Sensor Using Solid Polymer
Electrolyte and Perovskite-Type Oxide Based Electrode
S. Takase, A. Ishikawa, and Y. Shimizu, Extended
Abstracts of 49th Annual Meet. on Int. Soc. of Electrochem.,
ペロブスカイト型酸化物系電極によるリン酸イオンのアンペロメトリックセンシング
Amperometric Sensing Properties to Phosphate-Ion of Perovskite-Type Oxide-Based Electrode
石川文俊、高瀬聡子、清水陽一、Chem. Sensors, 14, Sup.B, 93-96 (1998).
ペロブスカイト型酸化物電極を用いた固体電解質CO2センサ
Solid-State CO2 Sensor Using NASICON and Perovskite-Type Oxide Electrode
山下南美、清水陽一、Chem. Sensors, 14, Sup.B, 189-192 (1998).
Solid Electrolyte CO2
Sensor Using Perovskite-type Oxide Electrode
Y. Shimizu and N. Yamashita, Digest of
Technical Papers, The 10th Int. Conf. on Solid-State Sensors and Actuators, Transducers' 99, Sendai, The
Inst. Electr.
Amperometric Phosphate-Ion Sensor Using
Perovskite-type Oxide-Based Electrode
Y. Shimizu, S. Takase, K. Iseki, and A. Ishikawa, Electrochemical Society Proceedings Volume 99-23, Chemical Sensors IV,
The Electrochem. Soc., (1999) pp. 38-47.
Amperometric Phosphate-Ion Sensor Using
Perovskite-type Oxide-Based Electrode
Y. Shimizu, S. Takase, K. Iseki, and A. Ishikawa, Abstract of The 1999 Joint International Meeting of The Electrochemical
Society, Hawaii, No. 2337 (2000).
固体電解質厚膜型ガスセンサの湿式プロセッシングと応答特性
Solid-State Thick-Film Gas Sensor Prepared by Sol-Gel Method
清水陽一、相田 健、Chemical Sensors, 15, Sup. B, 67-69
(1999).
パイロクロア型酸化物デバイスのNOx検知特性
Sensing Properties of Pyrochlore-type Oxide Based
Thick-Film NOx Sensor
中野裕弘、今坂隆之、平山義広、清水陽一、Chemical Sensors, 16, Sup. A, 61-63 (2000).
Wet-Chemical Synthesis of
Metal-Sulfides and Its Application to Oxygen Electrocatalysts
Y. Shimizu, H. Suzuki, T. Yano, T. Izumi, and S. Kouno,
Abstract of The 197thMeeting of The
Electrochemical Society, Toronto, No. 1207 (2000).
酸化物薄膜系エレクトロクロミックデバイスによるリン酸イオンセンシング
Electrochromic Hydrogen-Phosphate Ion Sensor Using Spinel-Type Metal-Oxide Thin-Film
塩塚政行、高瀬聡子、清水陽一、Chemical Sensors, 16, Sup. B, 49-51 (2000).
パイロクロア型酸化物薄膜を用いたNOxセンサ
Pyrochlore-type Oxide Based Thin-Film NOx Sensor
清水陽一、中野裕弘、三浦則雄、Chemical Sensors, 17, Sup. A, 31-33 (2001).
有機金属薄膜系イオンセンシングデバイスの電解化学合成
Electorochemical Processing of Metal-Complex
Thin-Films for Ion Sensing Device
高瀬聡子、清水陽一、Chemical Sensors, 17,
Sup. A, 73-75 (2001).
Electrochromic Sensor for Hydrogen-Phosphate Ion with Spinel-Type Oxide Based Thin-Film Electrode
Y. Shimizu, M. Shiotuka, and S. Takase, Electrochemical Society Proceedings Volume
2001-18, Chemical and Biological Sensor and Analytical Method II, pp.
543-549 (2001).
Electrocatalitic Properties of Pyrochlore-Type
Oxide in Acidic Electrolyte
S. Takase, J. Tokunaga, T. Yano, H.Suzuki, Y.
Shimizu, K. Tsujimoto, and Y. Uchida, Proc. of Intern. Fuel Cell Workshop 2001,
Solid Electrolyte SOx
Sensor Attached with Metal Sulfide Electrode
N. Souda and Y. Shimizu, Proc. of The 5th East Asian Conf.on Chemical
Sensors, Sasebo, (2001) pp. 179-181. (Chemical
Sensors, 17, Sup. B, 179-181
(2001).
Amperometric Hydrogen-Phosphate Ion Sensor Using Perovskite-Type Oxide Thin-Film Electrode
S. Takase, K. Tsuchida, M. Kawasaki,and
Y. Shimizu, Proc. of The 5th East Asian Conf.on Chemical Sensors, Sasebo, (2001) pp. 378-380. (Chemical Sensors, 17, Sup. B, 378-380 (2001).
Electrochromic Hydrogen-Phosphate Ion Sensor Using
Metal-Oxide Thin-Film Electrode
M. Shiotsuka, S. Takase, and Y. Shimizu, Proc. of The 5th East Asian Conf.on Chemical Sensors, Sasebo, (2001) pp. 381-383. (Chemical Sensors, 17, Sup. B, 381-383 (2001).
Pyrochlore-type Oxide as a Multi-Functional Electrocatalyst for PEMFC
J. Tokunaga, T. Yano, H. Suzuki, S. Takase, Y. Shimizu, K. Tsujimoto,
Y. Uchida, Abst. book of Inter. Symp.
on New Wave of Ceramics for the 21st Century,
Electrochromic Hydrogen-phosphate Ion Sensor Using
Metal-Oxide Thin-Film Electrode
M. Shiotsuka, S. Takase, Y. Shimizu, and Y. Tanaka, Abst. book of Inter. Symp.
on New Wave of Ceramics for the 21st Century,
固体電解質デバイスを用いたリン酸水素イオンセンサ
Hydrogen-Phosphate Ion Sensor Using Solid Electrolyte Impedance Transducer and Perovskite-Type Oxide Receptor
吉田麻里子、清水陽一、Chem. Sensors,
18, Sup. B, 16-18 (2002).
ペロブスカイト型酸化物系電極を用いた固体電解質センサのNOx検知特性
Sensing Properties of Solid Electrolyte NOx Sensor
Using NASICON and Perovskite-Type Oxide Electrod
高橋裕美、清水陽一、Chem. Sensors,
18, Sup. B, 130-132 (2002).
ペロブスカイト型酸化物薄膜の湿式合成とリン酸水素イオンセンサへの応用
Sol-Gel Synthesis of Perovskite-Type
Oxide Thin-Films for Hydrogen-Phosphate Ion Sensor
樋口直樹、高瀬聡子、清水陽一、Chem. Sensors, 19, Sup. A,
121-123 (2003).
電気泳動法による金属フタロシアニン系センサの作製とイオン応答特性
Preparation of Phthalocyanine
Thin-Film By Electrophoretic Deposition Method and
Its Application to Ion Sensor
中村一雄、高瀬聡子、清水陽一、Chem. Sensors, 19, Sup. B,
37-39 (2003).
Solid-State
Hydrogen-Phosphate Ion Sensor Combined with Solid Electrolyte Impedance
Transducer and Perovskite-Type Oxide Receptor
Y. Shimizu and M. Yoshida, Technical
Digests of The 107h International Meeting on Chemical SensorsTsukuba,
pp. 138-139 (2004).(Youichi Shimizu and Mariko Yoshida, Chem. Sensors, 20, Sup. B, 138-139 (2004).
Amperometric Sensor for
Hydrogen-Phosphate Ion with Perovskite-Type Oxide
Thin-Film
Y. Shimizu, S. Takase, N. Higuchi, and M.
Kawasaki, Electrochemical Society
Proceedings Volume
2004-8, Chemical and Biological Sensor and
Analytical Method II,
pp. 232-237 (2004).
Preparation of Perovskite-Type
Oxide Thick-Film via EPD Method
Toru Inagaki, Youichi Shimizu, Proceedings
of the 1st Kyushu-Busan Joint Symposium on Advanced
Ceramics, pp.42-43 (2004).
A Solid-State Photoluminescence Device Using
NASICON-Based Ceramic
Masataka Imamura, Youichi Shimizu, Proceedings of the 1st
Kyushu-Busan Joint Symposium on Advanced Ceramics, pp.63-64 (2004).
固体電解質インピーダンストランスデューサと酸化物レセプタを用いたNOxセンサ
NOx Sensor Using Solid Electrolyte Impedance Transducer and
Oxide Receptor
木庭大輔、高瀬聡子、清水陽一、Chem. Sensors, 21, Sup. A,
49-51 (2005).
多成分系酸化物薄膜型エレクトロクロミック素子によるリン酸イオンセンサ
Electrochromic Hydrogen-Phosphate Ion Sensor Using Multicomponent Oxide Thin-Film
竹安智宏、宮谷 晃、大峰成人、高瀬聡子、清水陽一、Chem. Sensors, 21, Sup. A, 109-111 (2005).
Solid-State Sox Sensor
Based on NASICON and Metal Sulfide Electrode
Y.
Shimizu, N. Souda, and M. Okimoto,
Degest of Technical Papers, the 13th Int.
Conf. on Solid-State Sensors, Actuators, and Microsystems, Seoul, Transducers' 05, pp. 1923-1926 (2005).
セラミックス高機能性電極による新規センサデバイスの構築
Design of Novel
Electrochemical Sensor Device with Ceramic Functional Electrode
清水陽一、Chem. Sensors, 21, Sup. B,
103-105 (2005).
A
NOx Sensor Using Solid Electrolyte Impedance
Transducer and Perovskite-Type Oxide Receptor
Y. Shimizu, S. Takase, and D. Koba,
Abst. of 208th Meet. Of The Electrochemical Soc., Oct
16-21, 2005,
酸化物レセプタを用いた固体電解質インピーダンス検出型NOxセンサ
Solid
Electrolyte Impedancemetric NOx
Sensor Using Oxide Receptor
木庭大輔、荒木友里、高瀬聡子、清水陽一、Chem.
Sensors, 22, Sup. A, 58-60 (2006).
酸化物系エレクトロクロミック薄膜素子よる環境イオンセンサ
An Environmental Ion
Sensor using Electrochromic Multicomponent
Thin-Film Oxide
竹安智宏、高瀬聡子、清水陽一、Chem. Sensors, 22, Sup. A,
97-99 (2006).
Electrochemical
Ceramic Device for Hydrogen-Phosphate Ion Sensor
Y. Shimizu, Abst. of 11th International Ceramics Congress & 4th Forum on New
Materials, June 4-9, 2006,
インピーダンス検出型セラミックス系アニオンセンサ
Solid-State Ceramic Based Impedancemetric
Anion Sensor
鈴木聡一郎、高瀬聡子、清水陽一、Chem. Sensors, 22, Sup. B,
46-48 (2006).
金属薄膜電極を用いたリン酸イオンセンサの設計
Designn of Phosphate-Ion Sensor Using Metal Thin-Film Electrode
城戸崎 徹、高瀬聡子、清水陽一、Chem. Sensors, 22, Sup. B,
49-51 (2006).
A Solid
Electrolyte Impedancemetric NOx
Sensor Using Oxide Receptor
D. Koba, S. Takase, and Y.
Shimizu, Abst. of 2006 Joint International Meeting
of 210th Meeting of The Electrochemical Society & XXI Congreso
de la Sociedad Mexicana de Electroquimica, Oct 29-Nov.3, 2006, Cancun, Mexico, J2, p. 2113,
MA2006-02.
A Pyrochlore-Type Oxide Electrocatalyst
for DMFC
T. Otsubo, S. Takase, and
Y. Shimizu, Abst. of 2006 Joint International Meeting of
210th Meeting of The Electrochemical Society & XXI Congreso
de la Sociedad Mexicana de Electroquimica, Oct 29-Nov.3, 2006, Cancun, Mexico, B6, p. 0521,
MA2006-02.
Preparation
and Anion Sensing Properties of Perovskite-Type Oxide
Thick-Film via EPD Method
S. Takase T. Inagaki, and Y. Shimizu, Abst. of 2006 Joint International Meeting of
210th Meeting of The Electrochemical Society & XXI Congreso
de la Sociedad Mexicana de Electroquimica, Oct 29-Nov.3, 2006, Cancun, Mexico, F5, p.1773,
MA2006-02.
Electrochromic
Properties of Mixed Metal Oxide Thin-Film and Its Application to Anion Sensor
T.
Takeyasu, S. Takase, and Y. Shimizu, Abst. of 2006 Joint International Meeting of
210th Meeting of The Electrochemical Society & XXI Congreso
de la Sociedad Mexicana de Electroquimica, Oct 29-Nov.3, 2006, Cancun, Mexico, A1, p. 0002,
MA2006-02.
<ECS Student Poster Session Awards 2006 >
電気泳動法によるペロブスカイト型酸化物厚膜電極の作製とイオン検知特性
Preparation and Ion Sensing Properties of Perovskite-Type Oxide Thick-Film by EPD Method
高瀬聡子、稲垣 徹、清水陽一、Chem. Sensors, 23, Sup. A,
70-72 (2007).
Preparation of High Lithium-Ion
Conductive Ceramic
Kengo Oda, Satoko Takase, and
Youichi Shimizu, Abst.
of The 8th international Symposium on Eco-materials Processing and Design
(ISEPD 2007), Jan 11-17, 2007,
Wet-Chemical Processing of
Lithium-Ion Conductive Fiber
Ryota Aono, Satoru Katamine, Satoko Takase, and Youichi Shimizu, Abst. of
The 8th international Symposium on Eco-materials Processing and Design (ISEPD
2007), Jan 11-17, 2007,
A
NOx Sensor Using Solid-Electrolyte Impedance
Transducer
Y. Shimizu,
金属合金薄膜電極を用いた高性能リン酸イオンセンサ
A High Performance Hydrogen-Phosphate Ion Sensor Based On
Metal-Alloy Thin-Film Electrode
城戸崎徹, 高瀬聡子,
清水陽一, Chem. Sensors, 23, Sup. B, 151-153 (2007).
ペロブスカイト型酸化物厚膜型リン酸イオンセンサの作製
Preparation of Perovskite-type Oxide Thick-Film for Phosphate Ion Sensor
松本俊和, 高瀬聡子, 清水陽一, Chem.
Sensors, 23, Sup. B,
154-156 (2007).
Developmemt of
Novel Metal Sulfide Electrocatalysts for Polymer
Electrolyte Fuel Cell
W. Iwaya, S. Takase, Y.
Shimizu, Proceedings of
International Seminar of Doctoral Students on Clean Energy Systems 2008, pp.
87-90
金属合金薄膜電極を用いたリン酸イオンセンサの設計
Design of Hydrogen-Phosphate-Ion Sensor Based on
Metal-Alloy Thin-Film Electrode
高瀬聡子, 城戸崎 徹, 清水陽一,
Chem. Sensors, 24, Sup. A, 58-60 (2008).
An
Electrochemical Hydrogen-Phosphate Ion Sensor Based on Perovskite-Type
Oxide Thick-Film Device
Satoko Takase, Toshikazu Matsumoto, and Youichi
Shimizu, Abst. of The first
A
NOx Sensor Based on Solid-Electrolyte Impedance
Transducer
Youichi Shimizu, Satoko Takase, Daisuke Koba, Abst. of International Conference on Multifunctional Materials and Structures, No. SE-34, 28-31 July
2008,
Preparation
of NASICON-Based Ceramic Thick-Film with Electrophoretic
Deposition for Solid-State Photoluminescence Device
Youichi Shimizu, Satoko Takase, Masataka
Imamura and Ikuhiro Koguma,
Abst. of 3d Int. Conf. on Electrophoretic
Deposition: Fundamentals and Applications, p.18,
金属合金系電極を用いた環境イオンセンサの設計
A High Performance
Ion-Sensor Based on Metal-Alloy Thin-Film Electrode
中村英靖, 城戸崎徹,
高瀬聡子, 清水陽一,
Chem. Sensors, 24, Sup. B, 19-21 (2008).
ペロブスカイト型酸化物微粉末の低温合成とイオンセンサへの応用
Synthesis of Perovskite-Type Oxide Fine Powder at Low Temperature and
Application for Ion sensor
高瀬聡子, 松本俊和,
清水陽一Chem. Sensors, 24, Sup. B,
25-27 (2008).
ペロブスカイト型酸化物薄膜を用いたエチレン・アセチレンガスセンサ
Impedance Metric
Ethylene and Acetylene Gas Sensors Based on Perovskite-Type
Oxide Thin-Film
田崎智久, 高瀬聡子, 清水陽一, Chem.
Sensors, 24, Sup. B, 43-45
(2008).
Preparation
of Perovskite-Type Oxide Fine Powder and Thin-Film by
Polymer Precursor Method
Satoko Takase, Soichiro
Suzuki, Toshikazu Matsumoto, and Youichi Shimizu, Abst. of PRiME 2008, Joint Int. Meet. : 214th Meet. of ECS
—The Electrochem. Soc., 2008 Fall Meet. of The Electrochem. Soc. of Japan,
Electrocatalytic
Properties of Pyrochlore-Type Oxide for PEFC
Takuro Iwanaga, Satoko Takase,
and Youichi Shimizu, Abst.
of PRiME 2008, Joint Int. Meet. : 214th
Meet. of ECS
—The Electrochem. Soc., 2008 Fall Meet. of The Electrochem. Soc. of Japan,
Synthesis
of NASICON-Type Luminescent Ceramics
Ikuhiro Koguma, Satoko Takase and Youichi Shimizu, Abst. of PRiME 2008, Joint
Int. Meet. : 214th Meet. of ECS —The Electrochem.
Soc., 2008 Fall Meet. of The Electrochem. Soc. of Japan,
A
New Concept High Sensitivity Sensor For The Environmental Pollution Gas
Concentration Measurement
J.-H. Song, J.-T. Baek ,Y. Shimizu Abst. of
The 1st Conference
for International Cooperation of Industry, Academy and Research Institute, 2-A-1, July 9~10,(2009),pp.
25-40,
金属合金系電極を用いた起電力型環境イオンセンサの設計
A Potentiometric Environmental
Ion-Sensor Based on Metal-Alloy Film Electrode
中村英靖, 高瀬聡子, 清水陽一, Chem. Sensors, 25, Sup. B, 79-81 (2009).
Oxygen
Reduction Properties of a-Metal-Phthalocyanine
Prepared by Electrophoretic Deposition Method
S. Takase, D. Saeki and Y. Shimizu, Abst. of The
216th ECS Meeting in Vienna Austria, Oct 4, 2009, #804, Symposium: B8 -
Proton Exchange Membrane Fuel Cells 9 (PEMFC9).
Ceramic
Anode-Catalyst for Direct Glucose-Air Cell
Y. Shimizu, J. Masukawa
and S. Takase, Abst. of The 216th ECS Meeting in Vienna Austria,
Oct 8, 2009, #325, Symposium: B1 - Battery / Energy Technology Joint General
Session.
Preparation
of Perovskite-type Oxide Thin-Film and Gas Sensing
Characteristic to Hydrocarbon Gas
Tomohisa
Tasaki, Satoko Takase, Youichi Shimizu, Abst. of KIT-KETI
workshop to enhance partnership: Development of novel intelligent nano materials, Kitakyushu, No. 28, p.41 (2009).
A
High Performance Ion-Sensor Based on Metal-Alloy Film Electrode
Nakamura Hideyasu, Satoko
Takase, Youichi Shimizu, Abst. of KIT-KETI workshop to enhance
partnership: Development of novel intelligent nano
materials, Kitakyushu, No. 29, p.41-42 (2009).
Impedancemetric Ethylene and Acetylene Gas
Sensors Based on Perovskite-type Oxide Thin-Film
Tomohisa
Tasaki, Satoko Takase, Youichi Shimizu, Proc.
of the 8th Asian Conference on Chemical Sensors, Daegu,
Korea, Nov.11-14, P1-19, 112 (2009).
ペロブスカイト型酸化物を用いたインピーダンス型アセチレンガスセンサ
Impedance Metric Acetylene Sensor Based on Perovskite-Type Oxide
田崎智久, 高瀬聡子, 清水陽一, Chem. Sensors, 26, Sup. A, 52-54 (2010).
Corrosion
Protection of Steel by Al-Mg Plasma Spray Coating
Y. Takeyoshi, S. Takase,
Y. Shimizu, M. Sueyoshi, and Y. Uchida, Abst. of The 217th ECS Meeting in in Vancouver, Canada, April 25-30, 2010, April 29th,
2010, # 910.
Impedancemetric Acetylene Sensor Based on Perovskite-type Oxide Receptor
T. Tasaki, S. Takase and Y. Shimizu, Abst. of
The 7th Asian Conference on Electrochemistry, ACEC2010, May 18-22,
2010, Kumamoto, 2B08, p. 106.
Electrocatalytic properties of Metallophthalocyanines film prepared by Electrophoretic
Deposition method
Satoko Takase, Daisuke Saeki, and Youichi Shimizu, Abst. of
The 7th Asian Conference on Electrochemistry, ACEC2010, May 18-22,
2010, Kumamoto, 1C04, p. 77.
A
NOx Sensor Using Solid-Electrolyte Impedance
Transducer
Y. Shimizu, S.
Takase, and J.-H. Song, Tech. Digest of
The 13th International Meeting on Chemical Sensors, p. 372, July 11-14,
2010, Perth, Australia.
Amperometric Hydrogen-Phosphate Ion Sensor
Using Screen Printed Perovskite-Type Oxide Thick-Film
Electrode
S. Takase, T.
Matsumoto, Y. Shimizu, Tech. Digest of The 13th International Meeting on Chemical
Sensors, p. 195, July 11-14, 2010, Perth, Australia.
コバルトナノ金属触媒の合成とリン酸イオンセンサへの応用
Synthesis of Nano-Cobalt Metal
Doped Carbon and Application to A Potentiometric
Hydrogen-Phosphate Ion Sensor
辻慶太朗, 高瀬聡子, 清水陽一, Chem. Sensors, 26, Sup. B, 61-63 (2010).
固体電解質と酸化物レセプタを用いたインピーダンス型NOxセンサ
Solid-State Impedancemetric NOx Sensor Using Solid Electrolyte Transducer and Oxide
Receptor
趙洪賛,高瀬聡子,宋政桓,清水陽一, Chem. Sensors, 27, Sup. A, 100-102 (2011).
希土類系ペロブスカイト型酸化物によるインピーダンス型アセチレンガスセンサ
Impedancemetric Acetylene Sensor Using Lanthanoid-Based
Perovskite-Type Oxide Thick-Film
田崎智久, 高瀬聡子, 清水陽一, Chem. Sensors, 27, Sup. A, 118-120 (2010).
<特許など>
ガス拡散型酸素電極
山添 昇、三浦則雄、清水陽一、上村賢一、日特開、平2-5364
(1990).
金属−空気2次電池
山添 昇、三浦則雄、清水陽一、熊田 誠、市橋豊紀、日特開、平2-257577 (1990).
固体電解質SOxセンサ
山添 昇、三浦則雄、清水陽一、厳 永鉄、日特開、平6-174692 (1994).
燃料電池電極材料
清水陽一、徳永純一、内田佳孝、辻本敬吾,特願2002-10751(2002). 特許 2002-010751 (平14.1.18)
固体電解質及びその製造方法
原田達朗、杉野弘法、小柳智之、清水陽一、高瀬聡子, 特願2002-41995 (2002). 特許
2002-041995 (平14.2.19)
ナトリウム溶液の電解装置及びそれを用いたナトリウム回収システム
原田達朗、杉野弘法、小柳智之、清水陽一、高瀬聡子、特願2002-41996
(2002). 特許 2002-047996 (平14.2.25)
亜酸化窒素ガスセンサ
発明者:清水陽一
出願人:九州工業大学、九州電力(株)、特願2005-100930、出願日2004/3/31特許第4475587 (平22.3.19)
電極触媒、および、その製造方法
発明者:清水陽一、山本伸司、小野正樹
出願人:九州工業大学、日産自動車(株)、特願2005-276793 出願日2005/9/22特許第4789179 (平23.7.29)
塩化水素ガスセンサ
発明者:清水陽一
出願人:九州工業大学、九州電力(株)、特願2006-098451 出願日2006/3/31特許第4793921 (平23.8.5)
清水研究室インデックス へもどる
清水プロフィール へもどる
研究室プロフィール へもどる