Electron Transfer Mechanism of Cytochrome c at the Oil/Water Interface as a Biomembrane ModelY. Imai, T. Sugihara, and T. Osakai*
J. Phys. Chem. B, 116, 585-592 (2012).
別刷またはPDFの送付をご希望の方は大堺までご請求下さい。 If you would like to have any reprint(s) or pdf file(s),
please feel free to contact T.
Osakai, Ph.D. |
(To be published)
Highly Selective Determination of Copper Corrosion Products by Voltammetric Reduction in a Strongly Alkaline Electrolyte (review)
S. Nakayama*, T. Notoya, and T. Osakai*
Anal. Sci., accepted for publication.
Interpretation of the Potential Response of PVC Membrane Ion-Selective Electrodes Based on the Mixed Potential Theory
T. Osakai*, Y. Sato, M. Imoto, and T. Sakaki
J. Electroanal. Chem., in press (DOI: 10.1016/j.jelechem.2012.01.019).
(2012)
Electron Transfer Mechanism of Cytochrome c at the Oil/Water Interface as a Biomembrane Model
Y. Imai, T. Sugihara,
and T. Osakai*
J. Phys. Chem. B, 116, 585-592 (2012).
(2011)
Cathodic Reduction of Copper Oxides (review)
Y.-Y. Su*, S. Nakayama, and T. Osakai
Corros. Rev., 29. 51-71 (2011).
Chemical State Analysis of Tin Oxide Films by Voltammetric Reduction
S. Nakayama*, T. Sugihara, J. Matsumoto, T. Notoya, and T. Osakai*
J. Electrochem. Soc., 158, C341-C345 (2011).
Electron Transfer Mediated by Membrane-bound D-Fructose Dehydrogenase Adsorbed at an Oil/Water Interface
Y. Sasaki, T. Sugihara, and T. Osakai*
Anal. Biochem., 417, 129-135 (2011).
(2010)
高アルカリ電解液を用いる銅腐食生成物のボルタンメトリー定量における留意点
中山茂吉*,能登谷武紀,大堺利行
銅と銅合金, 49, 273-277 (2010).
[Instructions for Voltammetric Determination of Copper Corrosion Products Using a Strongly Alkaline Electrolyte, S.
Nakayama*, T. Notoya, and T. Osakai, Journal of the JRICu, 49, 273-277 (2010)]
A Mechanism for the Atmospheric Corrosion of Copper Determined by Voltammetry with a Strongly Alkaline Electrolyte
S. Nakayama*, T. Notoya, and T. Osakai*
J. Electrochem. Soc., 157, C289-C294 (2010).
Direct Label-free Electrochemical Detection of Proteins Using the Polarized Oil/Water Interface
T. Osakai*, Y. Yuguchi, E. Gohara, and H. Katano
Langmuir, 26, 11530-11537 (2010).
Flow-Injection On-line Electrochemical Separation/Determination of Ions Using a Two-Step Oil/Water-Type Flow Cell System
E. Gohara and T. Osakai*
Anal. Sci., 26, 375-378 (2010).
(2009)
(使える解析テクニック! 具体例で説明する電気化学測定法) 分極曲線・サイクリックボルタンメトリー(8)液液界面
大堺利行
Electrochemistry, 77 (10), 899-903 (2009).
Potential-Modulated Fluorescence Spectroscopy of the Membrane Potential-Sensitive Dye Di-4-ANEPPS at the 1,2-Dichloroethane/Water Interface
T. Osakai*, J. Sawada, and H. Nagatani
Anal. Bioanal. Chem., 395, 1055-1061 (2009).
Bimolecular-Reaction Effect on the
Rate Constant of Electron Transfer at the Oil/Water Interface
as Studied by Scanning Electrochemical Microscopy
T. Osakai*, M. Okamoto, T. Sugihara, and K. Nakatani
J.
Electroanal. Chem., 628, 27-34 (2009). Kernel
Kinetic Analysis of Electron Transfer
across Single Water-Microdroplet/Oil and Oil-Microdroplet/Water
Interfaces
K. Nakatani*, M. Uchino, S. Suzuki, T. Negishi, and T. Osakai
Anal. Sci., 25, 183-187 (2009).
編集後記 (Editor's Note)
大堺利行
Rev.
Polarogr., 54, No. 2, 134 (2008).
(とびら)Analytical
Sciences誌の更なる飛躍を期して
大堺利行
ぶんせき,
379 (2008).
Correlation between Reduction Potentials
and Inhibitions of Epstein-Barr Virus Activation by Anthraquinone
Derivatives
J. Koyama*, Y. Nisino, I. Morita,
N. Kobayashi, T. Osakai, and H. Tokuda
Bioorg.
Med. Chem. Lett., 18, 4106-4109 (2008).
高アルカリ液を用いるボルタンメトリーによる銅硫化物の定量分析
中山茂吉*,楫登紀子,能登谷武紀,大堺利行
材料と環境,
57, 327-333 (2008). 平成23年度腐食防食協会「論文賞」受賞!
[Quantitative Analysis of Copper
Sulfides by Voltammetry Using a Strongly Alkaline Solution, S.
Nakayama*, T. Kaji, T. Notoya, and T. Osakai, Zairyo-to-Kankyo,
57, 327-333 (2008), in Japanese; the English translation
is available in Corrosion
Engineering (ISSN 0892-4228),
57, 419-431 (2008)]
 "Electrochemical
Dictionary"
ed by A. J. Bard, G. Inzelt,
and F. Scholz, Springer, Berlin (2008) (ISBN 978-3-540-74597-6)(T. Osakai contributed 25 entries including "anode", "cathode", "column electrode", "electrocapillary curve", "electroinactive species", "ECSOW system", "exchange current density", "four-electrode system", "Grotthuss mechanism", "Hofmeister series", "hydrated ion", "ion", "ion association", "ion-dipole interaction", "ion exchange", "ion-exchange membrane", "ionic potential", "ionic mobility", "Luggin capillary", "molar ionic conductivity", "oil-water interface", "positive feedback circuit", "residual current", "Masuzo Shikata", and "transition time") |
Electrochemical Aspects of the Reverse
Micelle Extraction of Proteins
T. Osakai* and A. Shinohara
Anal.
Sci., 24, 901-906 (2008). Selected
as a "Hot
Article"
 ベーシック機器分析化学日本分析化学会近畿支部 編 化学同人,2008年7月 (ISBN 978-4-7598-1144-5) (大堺担当:第III部 0章,電気化学反応の基礎/1章,ボルタンメトリー) |
 ベンゾトリアゾール −銅および銅合金の腐食抑制剤−能登谷武紀,中山茂吉,大堺利行 共著 日本防錆技術協会,2008年6月 |
Correlation between Oxidation Potentials
and Inhibitory Effects on Epstein-Barr Virus Activation of Flavonoids
J. Koyama*, I. Morita, N. Kobayashi,
T. Konoshima, M. Takasaki, T. Osakai, and H. Tokuda
Cancer
Lett., 263, 61-66 (2008).
(解説)銅酸化物の定量的な状態別分析法
中山茂吉,大堺利行,能登谷武紀
防錆管理,52, 112-119 (2008).
Mechanistic Study of the Reduction
of Copper Oxides in Alkaline Solutions by Electrochemical Impedance
Spectroscopy
S. Nakayama*, T. Kaji, T. Notoya,
and T. Osakai
Electrochim.
Acta, 53, 3493-3499 (2008).
A Mechanistic Study of the Oxidation
of Natural Antioxidants at the Oil/Water Interface Using Scanning
Electrochemical Microscopy
T. Sugihara, T. Kinoshita, S.
Aoyagi, Y. Tsujino, and T. Osakai*
J.
Electroanal. Chem., 612, 241-246 (2008). Kernel
Electrochemical Consideration on the
Optimum pH of Bilirubin Oxidase
K. Otsuka, T. Sugihara, Y. Tsujino,
T. Osakai, and E. Tamiya*
Anal.
Biochem., 370, 98-106 (2007).
Cationic-Surfactant Transfer Facilitated
by DNA Adsorbed on a Polarized 1,2-Dichloroethane/Water Interface
T. Osakai*, H. Komatsu, and M. Goto
J.
Phys. Cond. Matt., 19, 375103 (11pp) (2007). Kernel
Potential-Dependent Adsorption of
Amphoteric Rhodamine Dyes at the Oil/Water Interface as Studied
by Potential-Modulated Fluorescence Spectroscopy
T. Osakai*, H. Yamada, H. Nagatani*,
and T. Sagara
J. Phys.
Chem. C, 111, 9480-9487 (2007).
(書評)分析化学(S. P. J. Higson著,阿部芳廣,渋川雅美,角田欣一 訳)
大堺利行
現代化学,No.
433, 70 (2007).
(話題)Analytical
Sciences誌のインパクトファクターを考える
大堺利行
ぶんせき,
143-144 (2007).
[On the Impact Factor of Analytical
Sciences (review), T. Osakai, Bunseki, 143-144 (2007)]
Which Is Easier to Reduce, Cu2O
or CuO?
S. Nakayama, T. Kaji, M. Shibata,
T. Notoya, and T. Osakai*
J.
Electrochem. Soc., 154, C1-C6 (2007).
電気化学測定のための基礎技術(2)(解説)
木原壯林 編,Rev.
Polarogr., 52, 89-107 (2006).
(大堺担当:油水界面電荷移動ボルタンメトリー用の四電極式電解セルの作製,pp. 90-93.)
[Fundamental Techniques for Electrochemical Measurements (Part
2)(review), ed by S. Kihara, Rev. Polarogr., 52,
89-107 (2006); T. Osakai was in charge of the subject "Fabrication
of a Four-Electrode Electrolytic Cell for Charge-Transfer Voltammetry
with the Oil/Water Interface", pp. 90-93]
Correlation between Reduction Potentials
and Inhibitory Effects on Epstein-Barr Virus Activation by Emodin
Derivatives
J. Koyama*, M. Inoue, I. Morita, N. Kobayashi, T. Osakai, H. Nishino,
and H. Tokuda
Cancer
Lett., 241, 263-267 (2006).
Electrochemical Extraction of Proteins
by Reverse Micelle Formation
M. Shinshi, T. Sugihara, T. Osakai*, and M. Goto
Langmuir,
22, 5937-5944 (2006). [Corrections: ibid, 22, 8614 (2006)]
油水界面イオン移動の標準電位(総説)
大堺利行
Rev.
Polarogr., 52, 3-12 (2006).
[Standard Potentials for the Transfer of Ions at the Oil/Water
Interface (review), T. Osakai, Rev. Polarogr., 52,
3-12 (2006)]
Quantitative Analysis of the Structure-Hydrophobicity
Relationship for Di- and Tripeptides Based on Voltammetric Measurements
with an Oil/Water Interface
T. Osakai*, T. Hirai, T. Wakamiya,
and S. Sawada
Phys. Chem.
Chem. Phys., 8, 985-993 (2006). Kernel
Direct Spectroelectrochemical Observation
of Interfacial Species at the Polarized Water/1,2-Dichloroethane
Interface by Ac Potential Modulation Technique
H. Nagatani*, T. Ozeki, and T.
Osakai
J.
Electroanal. Chem., 588, 99-105 (2006).
Correlation between Reduction Potentials
and Inhibitory Effects on Epstein-Barr Virus Activation of Poly-substituted
Anthraquinones
J. Koyama*, I. Morita, N. Kobayashi, T. Osakai, H. Nishino, and
H. Tokuda
Cancer
Lett., 225, 193-198 (2005).
油水界面の電気分析化学における最近の進歩(総説)
大堺利行*,片野 肇
分析化学,54,
251-266 (2005).
[Recent Developments in the Electroanalytical
Chemistry at an Oil|Water Interface (review),T. Osakai* and H.
Katano, Bunseki Kagaku, 54, 251-266 (2005)]
(電気化学:測定と解析のてびき) サイクリックボルタンメトリー(2)準可逆波,非可逆波
大堺利行,加納健司
Electrochemistry, 73, 310-313 (2005).
(電気化学:測定と解析のてびき) サイクリックボルタンメトリー(1)可逆波
加納健司,大堺利行
Electrochemistry, 73, 220-224 (2005).
Structure-Activity Relationship of
Azafluorenone and Azaanthraquinone as Antimicrobial Compounds
J. Koyama*, I. Morita, N. Kobayashi,
T. Osakai, Y. Usuki, and M. Taniguchi
Bioorg.
Med. Chem. Lett., 15, 1079-1082 (2005).
 Electron
Transfer at Liquid/Liquid InterfacesT. Osakai and H. Hotta In "Interfacial Nanochemistry" ed by H. Watarai, N. Teramae, and T. Sawada, Kluwer/Plenum, New York, Chap. 8 (pp. 171-188) (2005). |
Electron Transfer across the Single
Micro-Water-Droplet|Oil Interface Using Microcapillary Injection
and Microelectrode Methods
K. Nakatani*, J. Yamashita, T.
Negishi, and T. Osakai
J.
Electroanal. Chem., 575, 27-32 (2005).
Photoinduced Electron Transfer of
5,10,15,20-Tetraphenylporphyrinato Zinc(II) at the Polarized Water/1,2-Dichloroethane
Interface
H. Nagatani*, S. Dejima, H. Hotta,
T. Ozeki, and T. Osakai*
Anal.
Sci., 20, 1575-1579 (2004).
A True Electron-Transfer Reaction
between 5,10,15,20-Tetraphenylporphyrinato Cadmium(II) and the
Hexacyanoferrate Couple at the Nitrobenzene/Water Interface
T. Osakai*, S. Ichikawa , H.
Hotta, and H. Nagatani
Anal.
Sci., 20, 1567-1573 (2004).
Diffusion-controlled Rate Constant
of Electron Transfer at the Oil/Water Interface
T. Osakai*, H. Hotta, T. Sugihara,
and K. Nakatani
J.
Electroanal. Chem., 571, 201-206 (2004). Kernel
銅酸化物及び水酸化物の粉末試料のボルタンメトリーによる化学状態分析
中山茂吉*,柴田雅裕,大堺利行,能登谷武紀
銅と銅合金,43, 235-239 (2004).
[Voltammetric Chemical State
Analysis of Copper Oxides and Hydrooxide in Powder Samples, S.
Nakayama*, M. Shibata, T. Osakai, and T. Notoya, Journal of the JRICu, 43, 235-239 (2004)]
電気化学的還元法による緋色銅表面酸化物の決定
能登谷武紀*,中山茂吉,楫 登紀子,大堺利行
銅と銅合金,43, 232-234 (2004).
[Identification of Reddish-brown
Copper Oxide on Copper by the Electrochemical Reduction Method,
T. Notoya*, S. Nakayama, T. Kaji, and T. Osakai, Journal of the JRICu, 43, 232-234 (2004)]
Product Analysis of Caffeic Acid Oxidation
by On-line Electrochemistry/Electrospray Ionization Mass Spectrometry
R. Arakawa*, M. Yamaguchi, H.
Hotta, T. Osakai, and T. Kimoto
J.
Am. Soc. Mass Spectrom., 15, 1228-1236 (2004).
Correlation of Redox Potentials and
Inhibitory Effects on Epstein-Barr Virus Activation of 2-Azaanthraquinones
J. Koyama*, I. Morita, N. Kobayashi,
T. Osakai, H. Hotta, J. Takayasu, H. Nishino, and H. Tokuda
Cancer
Lett., 212, 1-6 (2004).
Electrochemical Control of Glucose
Oxidase Catalyzed Redox Reaction Using an Oil/Water Interface
T. Sugihara, H. Hotta, and T.
Osakai*
Phys. Chem.
Chem. Phys., 6, 3563-3568 (2004). Kernel
オンライン電解/エレクトロスプレーイオン化質量分析法によるカテキン類の酸化過程の研究
山口正史,溝奥康夫,大堺利行,紀本岳志,荒川隆一*
分析化学,
53, 547-553 (2004).
[Study of the
Oxidation Processes of Catechins by On-line Electrolysis/ESI-MS, M. Yamaguchi, Y. Mizooku T. Osakai,
T. Kimoto, and R. Arakawa*, Bunseki Kagaku, 53, 547-553 (2004)]
 化学便覧 基礎編,改訂5版日本化学会編,丸善,2004年2月 (大堺担当:13.1.4項,油水界面イオン移動の標準ギブズエネルギーと標準イオン移動電位,pp. II-578-II-579) |
(特集)油水界面電子移動の反応機構解明への新しいアプローチ
大堺利行,堀田弘樹
ぶんせき,
746-748 (2003).
Correlation with Redox Potentials
and Inhibitory Effects on Epstein-Barr Virus Activation of Naphthoquinones
J. Koyama*, I. Morita, N. Kobayashi,
T. Osakai, H. Hotta, J. Takayasu, H. Nishino, and H. Tokuda
Cancer
Lett., 201, 25-30 (2003).
銅表面に生成した酸化第一銅及び酸化第二銅の分析法に関する研究(技術論文)
中山茂吉,柴田雅裕,能登谷武紀,大堺利行
SEIテクニカルレビュー,
No. 163, 39-42 (2003).
[The English edition: Voltammetric
Determination of Cupric and Cuprous Oxides Formed on Copper, S.
Nakayama, M. Shibata, T. Notoya, and T. Osakai, SEI Technical Review, No. 57,
22-25 (2004)]
Temperature Effect on the Selective
Hydration of Sodium Ion in Nitrobenzene
T. Osakai*, A. Tokura, H. Ogawa,
H. Hotta, M. Kawakami, and K. Akasaka
Anal.
Sci., 19, 1375-1380 (2003).
Determination of the Entropy of Ion
Transfer between Two Immiscible Liquids Using the Water|Oil|Water Thermocouple
T. Osakai*, H. Ogawa, T. Ozeki, and H.H. Girault
J.
Phys. Chem. B, 107, 9829-9836 (2003).
Clarification of the Mechanism of
the Interfacial Electron-Transfer Reaction between Ferrocene and
Hexacyanoferrate(III) by Digital Simulation of Cyclic Voltammograms
H. Hotta, S. Ichikawa, T. Sugihara,
and T. Osakai*
J.
Phys. Chem. B, 107, 9717-9725 (2003).
サイクリックボルタモグラムのデジタルシミュレーションによるアスコルビン酸の油水界面電子移動の反応機構
杉原崇康,堀田弘樹,大堺利行*
分析化学,
52, 665-671 (2003).
[Mechanistic Study of the Electron
Transfer of L-Ascorbic Acid at an Oil/Water Interface
by a Digital Simulation of Cyclic Voltammograms, T. Sugihara,
H. Hotta, and T. Osakai*, Bunseki Kagaku, 52, 665-671 (2003)]
油水界面電子移動の反応機構に関する研究(総説)
堀田弘樹,大堺利行*
Rev.
Polarogr., 49, 15-30 (2003).
[Mechanistic Study of Electron Transfer
at the Oil/Water Interface (review), H. Hotta and T. Osakai*,
Rev. Polarogr., 49, 15-30 (2003)]
銅の空気酸化被膜の成長に関するボルタンメトリー的解析
中山茂吉*,柴田雅裕,桑畑 進,大堺利行,能登谷武紀
材料と環境, 51, 566-570 (2002).
[Voltammetric Characterization
for the Growth of Oxide Films Formed on Copper in Air, S. Nakayama*,
M. Shibata, S. Kuwabata, T. Osakai, and T. Notoya, Zairyo-to-Kankyo,
51, 566-570 (2002), in Japanese; the English translation
is available in Corrosion
Engineering (ISSN 0892-4228),
51, 787-796 (2002)]
T. Osakai In "Interfacial Catalysis" ed by A.G. Volkov, Marcel Dekker , Chap. 4 (pp. 53-82) (2002). |
銅表面に生成した酸化第一銅及び酸化第二銅のボルタンメトリー測定の標準化に関する研究
中山茂吉*,柴田雅裕,能登谷武紀,大堺利行
分析化学,51,
1145-1152 (2002).
[On Standardizing to Voltammetric
Determination of Cupric and Cuprous Oxides Formed on Copper, S.
Nakayama*, M. Shibata, T. Notoya, and T. Osakai, Bunseki Kagaku,
51, 1145-1152 (2002)]
Higher Radical Scavenging Activities
of Polyphenolic Antioxidants Can Be Ascribed to Chemical Reactions
Following Their Oxidation
H. Hotta, S. Nagano, M. Ueda,
Y. Tsujino, J. Koyama, and T. Osakai*
Biochim.
Biophys. Acta, 1572, 123-132 (2002).
(トピックス) ワインの抗酸化力を電気化学ではかる
堀田弘樹
ぶんせき, 458 (2002).
(測定法Q&A) 電極間の内部電位プロファイル
加納健司,大堺利行,桑畑 進
Electrochemistry,
70, 358-361 (2002).
イオン移動ボルタンメトリー用四電極式測定システムの性能評価
青柳重夫,松平昌昭,鈴木貴博,片野 肇,澤田惠夫,堀田弘樹,市川聖子,杉原崇康,大堺利行*
Electrochemistry,
70, 329-333 (2002).
[Performance Evaluation of the Four-Electrode
Type Measurement System for Ion-Transfer Voltammetry, S. Aoyagi,
M. Matsudaira, T. Suzuki, H. Katano, S. Sawada, H. Hotta, S. Ichikawa,
T. Sugihara, and T. Osakai*, Electrochemistry, 70,
329-333 (2002)]
Electron-Conductor Separating Oil-Water
(ECSOW) System: a New Strategy for Characterizing Electron-Transfer
Processes at the Oil/Water Interface
H. Hotta, N. Akagi, T. Sugihara,
S. Ichikawa, and T. Osakai*
Electrochem.
Commun., 4, 472-477 (2002).
Mechanistic Study of the Oxidation
of Caffeic Acid by Digital Simulation of Cyclic Voltammograms
H. Hotta, M. Ueda, S. Nagano,
Y. Tsujino, J. Koyama, and T. Osakai*
Anal.
Biochem., 303, 66-72 (2002).
|
あい書店の書評は ここ |
(こんにちは)京都大学大学院農学研究科池田研究室を訪ねて
大堺利行
ぶんせき, 135-137 (2002).
Complete Electrolysis Using a Microflow
Cell with an Oil/Water Interface
S. Sawada, M. Taguma, T. Kimoto,
H. Hotta, and T. Osakai*
Anal.
Chem., 74, 1177-1181 (2002).
Voltammetric Characterization of Oxide
Films Formed on Copper in Air
S. Nakayama*, A. Kimura, M. Shibata,
S. Kuwabata, and T. Osakai
J.
Electrochem. Soc., 148, B467-B472 (2001).
Correlation with Redox Potentials
and Inhibitory Effects on Epstein-Barr Virus Activation of Azaanthraquinones
J. Koyama*, I. Morita, K. Tagahara,
T. Osakai, H. Hotta, M.X. Yang, T. Mukainaka, H. Nishino, and
H. Tokuda
Chem.
Pharm. Bull., 49, 1214-1216 (2001).
Mechanistic Aspects Associated with
the Oxidation of L-Ascorbic Acid at the 1,2-Dichloroethane|Water
Interface
T. Osakai*, H. Jensen, H. Nagatani,
D.J. Fermin, and H.H. Girault
J.
Electroanal. Chem., 510, 43-49 (2001).
Selective Hydration of a Carboxylate
Group in Nitrobenzene
T. Osakai*, S. Nakata, and H.
Ogawa
Chem.
Lett., 558-559 (2001).
Ion Transfer of Heteropolytungstate
Anions at the Nitrobenzene|Water Interface and its Relevance to
Their Antiviral Activities
J. Ding, H. Hotta, and T. Osakai*
J.
Electroanal. Chem., 505, 133-141 (2001).
Unusually Large Numbers of Electrons
for the Oxidation of Polyphenolic Antioxidants
H. Hotta, H. Sakamoto, S. Nagano,
T. Osakai*, and Y. Tsujino
Biochim.
Biophys. Acta, 1526, 159-167 (2001).
Ion Transfer of Reduced Keggin-type Heteropolymolybdate
Anions at the Nitrobenzene/Water Interface and its Relevance to
their Antitumoral Activities
J. Ding and T. Osakai*
Electroanalysis,
13, 384-391 (2001).
Ion Transfer and Photoinduced Electron Transfer of Water-soluble
Porphyrin at the Nitrobenzene|Water Interface
T. Osakai* and K. Muto
J.
Electroanal. Chem., 496, 95-102 (2001).
|
Book Review by Prof. D. Schiffrin: here |
Proton NMR Study on Selective Hydration of Anions in Nitrobenzene
T. Osakai*, M. Hoshino, M. Izumi, M. Kawakami, and K. Akasaka
J.
Phys. Chem. B, 104, 12021-12027 (2000).
Mechanistic Study of the Oxidation of L-Ascorbic
Acid by Chloranil at the Nitrobenzene|Water Interface
T. Osakai*, N. Akagi, H. Hotta, J. Ding, and S. Sawada
J.
Electroanal. Chem., 490, 85-92 (2000).
|
Amazon.co.jp の書評は ここ bk1 の書評は ここ |
(談話室)美しい電気化学
大堺利行
Rev. Polarogr.,
46, 8 (2000).
[Beautiful Electrochemistry (essay), T. Osakai, Rev. Polarogr.,
46, 8 (2000)]
 はかってなんぼ −分析化学入門−河合 潤,樋上照男 編,丸善,平成12年2月 (ISBN 4-621-04707-8) (大堺担当:第7章,イオンセンサー〜錬金術から科学技術へ〜,pp. 73-81) |
Selective Hydration of Alkylammonium Ions in Nitrobenzene
A. Ogata, Y. Tsujino, and T. Osakai*
Phys. Chem. Chem.
Phys., 2, 247-251 (2000).
To the Osakai
Laboratory Homepage
To Toshiyuki
OSAKAI's Profile (in English)
