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Publications
<原著論文>
<著書・ 総説・解説>
原著論文
★Google Scholar ★
ORCID
H. Zhang, J. Yin, Y. Wang, Y. Hasebe, Z. Zhang
"NiO decorated cocoon silk derived carbon based non-invasive electrochemical
sensor for detecting glucose in saliva"
J. Mater. Sci., accepted on Nov. 21 2024.
Z. Jiao, L. Kuang, J. Gong, A. Shibata, K. Sato, S. Aoki, Y. Wang, Y. Hasebe
"Binding interaction of cationic acridine dyes with glucose oxidase to enhance
mediated bioelectrocatalysis"
New J. Chem., 48, 18646-18650 (2024).
Y. Wang, J. Zhao, Y. Xing, Y. Dong, Z. Wang, Y. Hasebe, R. H. Baughman
"Covalent organic framework derived oxygen/sulfur-doped porous carbon for robust
high-capacitance symmetric supercapacitors"
Chem. Asian J. e202400930 (2024).
J. Yeh, Y. Hasebe, M. Uchida
"One-Pot Sonochemical Synthesis of Carbon Nano-Onions from Silicon Carbide in
Pure Water"
Mater. Trans., 65, 1431-1435 (2024).
Z. Jiao, L. Kuang, M. Komori, M. Hirono, R. Komuro, Y. Wang,
Y. Hasebe
"Glucose oxidase, horseradish peroxidase and phenothiazine dyes-coadsorbed
carbon felt-based amperometric flow-biosensor for glucose"
Anal. Methods, 16, 5883-5895 (2024).
T. Ma, Y. Wang, Y. Gu, Y. Hasebe
"A Carbon Black-Doped Chalcopyrite-Based Electrochemical Sensor for
Determination of Hydrogen Peroxide"
Ionics, 30, 5651-5661 (2024).
J. Yeh, Y. Hasebe, M. Uchida
"Room-temperature synthesis of carbon nano-onions through sonication of B4C
in water"
Carbon Reports, 3, 129-133 (2024).
J. Yin, H. Zhang, Y. Wang, M. B. J. Laurindo, J. Zhao,
Y. Hasebe, Z. Zhang
"Crab Gill derived Nanorod-like
Carbons as Bifunctional Electrochemical Sensors for Detection of Hydrogen
Peroxide and Glucose"
Ionics, 30, 3541-3552 (2024).
M. Zhang, Z. Lu, J. Zhao, Y. Hasebe, Z. Zhang, Y. Wang
"Simultaneous
Electrochemical Determination of Hydroquinone and Catechol by Lignocellulose
Biopolymers Derived Porous Carbon"
ChemistrySelect, 8, e202303610 (2023).
T. Ma, Y. Wang, Y. Hasebe, Z. Zhang
"A
Carbon-Black-Doped Molybdenite-Based Electrochemical Sensor for Simultaneous
Determination of Uric Acid, Dopamine, and Ascorbic Acid"
ChemistrySelect, 8, e202300226 (2023).
Y. Wang, S. Aoki, K. Nara, Y. Kikuchi, Z. Jiao, Y. Hasebe
"Shield, Anchor, and Adhesive Roles of Methylene Blue in Tyrosinase Adsorbed on
Carbon-felt for a Flow Injection Amperometric Enzyme Biosensor for Phenolic
Substrates and Inhibitors"
Langmuir, 39, 4676-4691 (2023).
Y. Zhang, Y. Wang, Y. Dong, Z. Zhang, Y. Hasebe, J. Zhu, Z. Liu, E. Gao
"Effect of Acridine Orange on Improving the Electrochemcial Performance of
Tyrosinase Adsorbed Sulfide Mineral Based Catechol Biosensor"
ChemistrySelect, 8, e202202444 (2023).
Z. Lu, Y. Wang, Y. Zhu, Y. Hasebe, Z. Zhang
"Popcorn-Derived
Porous Carbon Based Electrochemical Sensor for Simultaneous Determination of
Hydroquinone, Catechol and Nitrite"
ChemistrySelect, 7, e202200148 (2022).
T. Ma, Y. Wang, Y. Hou, E. Wang, G. Yin, Y. Hasebe, Z. Zhang
"An amperometric glucose biosensor based on electrostatic force induced
layer-by-layer GOD/chitosan/pyrite on a glassy carbon electrode"
Anal. Sci., 38, 553-562 (2022).
Y. Wang, J. Wu, T. Yang, Z. Wang, Y. Hasebe, T. Lv, Z. Zhang
"A novel flexible electrochemical ascorbic acid sensor constructed by ferrocene
methanol doped multi-walled carbon nanotube yarn"
Electroanalysis, 33, 2445-2451 (2021).
J. Zhao, Y. Wang, T. Wang, Y. Hasebe, Z. Zhang
"Molten-salt-composite of pyrite and silver nanoparticle as electrocatalyst
for hydrogen peroxide sensing"
Anal. Sci., 37, 1589-1595 (2021).
Y. Zhang, Y. Wang, Z. Zhang, A. Sobby, S. Sato, M. Uchida, Y. Hasebe
"Natural molybdenite- and tyrosinase-based amperometric catechol biosensor using
acridine orange as a glue, anchor, and stabilizer for the adsorbed tyrosinase"
ACS Omega, 6, 13719-13727 (2021).
Y. Wang, J. Zhao, T. Yang, Y. Zhang, D. Tao, Y. Hasebe, Z. Zhang
"Electrochemical evaluation of sulfide mineral modified glassy carbon electrode
as novel mediated glucose biosensor"
J. Electroanal. Chem., 894, 115357 (2021)..
Z. Lu, Y. Wang, Y. Hasebe, Z. Zhang
"Electrochemical sensing platform based on lotus stem-derived
porous carbon for the simultaneous determination of hydroquinone, catechol and
nitrite"
Electroanalysis, 33, 956-963 (2021).
Y. Zhang, Y. Wang, Y. Hasebe, Z. Zhang, D. Tao
"A sensitive electrochemical ascorbic acid sensor using glassy carbon electrode
modified by molybdenite with electrodeposited methylene blue"
Appl. Biochem. Biotechnol. 191, 1533-1544 (2020).
R. Zhao, Y. Wang, Y. Hasebe, Z. Zhang, D. Tao
"Determination of glucose using a biosensor based on glucose oxidase immobilized
on molybdenite-decorated glassy carbon electrode"
Int. J. Electrochem. Sci., 15, 1595-1605 (2020).
Y. Wang and Y. Hasebe
"Phenazine dye- and enzyme-modified plastic formed carbon electrode for
amperometric dihydronicotineamide adeninde dinucleotide and glucose sensing“
Sens. Mater. 31, 1181-1190 (2019).
T. Yang, Y. Wang, Y. Hasebe, L. Chen, Z. Zhang, Z. Hu
"Electrochemical sensor for detection of ascorbic acid using a methylene
blue-doped polyimide-modified glassy carbon electrode"
Int. J. Electrochem. Sci., 14, 8494-8505 (2019).
R. Zhao, Y. Wang, Z.Q. Zhang, Y. Hasebe, D. Tao
"A glassy carbon electrode modified with molybdenite and Ag nanoparticle
composite for selectively sensing of ascorbic acid“
Anal. Sci., 35, 733-738 (2019).
L. Chen, Y. Wang, Y. Hasebe, X. Yang, D. Zhang, Z. Zhang, Z. Hu
"Copper(II) ion-doped polyimide composite for nonenzymatic electrochemical
hydrogen peroxide sensing"
Int. J. Electrochem. Sci., 14, 4891-4902 (2019) .
Y. Wang, L. Chen, Y. Zhang, Q. Wang, R. Ma, Y. Hasebe, Z.
Zhang, and Z. Hu
"Carbon-black-doped polyimide-modified glassy carbon electrode for sensitive
nonenzymatic amperometric determination of hydrogen peroxide“
Sens. Mater. 31, 1191-1203 (2019).
Y. Wang, F. Zhai, Y. Hasebe, H. Jia, and Z. Zhang
"A highly sensitive electrochemical biosensor for phenol derivatives using a graphene oxide-modified tyrosinase electrode"
Bioelectrochemistry, 122, 174-182 (2018).
Y. Wang, T. Yang, Y. Hasebe, Z. Zhang, and D. Tao
"Carbon black-carbon nanotube co-doped polyimide sensors for
simultaneous determination of ascorbic acid, uric acid, and dopamine"
Materials, 11, 1691 (2018).
Z. Zhou, Y. Wang, Z.Q. Zhang, Y. Zhang, Y. Hasebe, Y.M. Song,
and C.P. Wang
"Immobilization of tyrosinase on [3-aminopropyl)triethoxysilane-functionalized
carbon felt-based flow-through detectors for electrochemical detection of
phenolic compounds"
Kem. Ind. 66, 373-380 (2017).
Y. Wang and Y. Hasebe
"Carbon felt-based bioelectrocatalytic flow-through detectors:
2,6-dichilorophenol indophenol and peroxidase coadsorbed carbon-felt for flow
amperometric determination of hydrogen peroxide"
Materials, 7, 1142-1154 (2014).
R. Hashide, K. Yoshida, Y. Hasebe, M. Seno, S. Takahashi, K. Sato,
and J. Anzai
"Poly(lactic acid) microparticles coated with
insulin-containing LbL films and their pH-dependent insuline release"
J. Nanosci. Nanotechnol. 14, 3100-3105 (2014).
K. Yoshida, Y. Hasebe, S. Takahashi, K. Sato, and J. Anzai
"Layer-by-layer deposited nano- and micro-assemblies for insuline delivery: A
review"
Mater. Sci. Eng. C, 34, 384-392 (2014).
H. Matsuhisa, M. Tsuchiya, and Y. Hasebe
"Protein and polysaccharide-composite sol-gel silicate film for an
interference-free amperometric glucose biosensor"
Colloids Surf. B, 111, 523-529 (2013).
Y. Wang, T. Hosono, and Y. Hasebe
"Hemin-adsorbed carbon felt for sensitive and rapid flow-amperometric detection
of dissolved oxygen”
Microchim. Acta, 180, 1295-1302 (2013).
Y. Hasebe and Y. Wang
"Sensitive voltammetric and amperometric responses of
respiratory toxins at hemin-adsorbed carbon-felt"
J. Environ. Sci.,
25, 1055-1062 (2013).
Y. Hasebe and Y. Wang
"Flow-amperometric biosensor for respiratory toxins using myoglobin-adsorbed
carbon-felt, based on an inhibitory effect on bioelectrocatalytic reduction of
oxygen”
Electrochim. Acta, 82, 26-34 (2012).
細野 徹、王 月、長谷部 靖
"ヘモグロビン吸着カーボンフェルトの酸素電解還元触媒活性に対する阻害効果に基づくアジ化物イオンの電気化学検出/フローインジェクション分析"
分析化学, 61, 691-697 (2012).
Y. Hasebe and Y. Wang
"Bioelectrocatalytic reduction of oxygen by hemoglobin-adsorbed carbon-felt, and
its inhibition by azide”
Electrochemistry, 80, 358-362 (2012).
Y. Wang and Y. Hasebe
"Methylene blue-induced stabilization effect of adsorbed glucose oxidase on a
carbon-felt surface for bioelectrocatalytic activity”
J. Electrochem. Soc., 159, F110-F118 (2012).
T. Gu and Y. Hasebe
"Novel amperometric assay for drug-DNA interaction based on an inhibitory effect
on an electrocatalytic activity of DNA-Cu(II) complex"
Biosens. Bioelectron., 33, 222-227 (2012).
Y. Wang and Y. Hasebe
"Glucose oxidase-modified carbon-felt-reactor coupled with peroxidase-modified
carbon-felt detector for amperometric flow determination of glucose"
Mater. Sci. Eng. C, 32, 432-439 (2012).
R. Hashida, K. Yoshida, Y. Hasebe, S.
Takahashi, K. Sato, and J. Anzai
"Insuline-containing layer-by-layer films
deposited on poly (lactic acid) microbeads for pH-controlled release of
insuline"
Colloids Surf. B, 89, 242-247 (2012).
Y. Wang and Y. Hasebe
"Uricase-adsorbed
carbon-felt reactor coupled with a peroxidase-modified carbon-felt based H2O2
detector for highly sensitive flow determination of uric acid".
J. Pharm. Biomed. Anal.,
57, 125-132 (2012).
土屋 宗謙、松久 弘典、長谷部 靖
"タンパク質配合ゾル-ゲル膜修飾電極の過酸化水素に対する選択的電流応答"
分析化学,
61, 425-428 (2012).
Y. Wang and Y. Hasebe
Amperometric
flow-biosensor for cyanide based on an inhibitory effect upon bioelectrocatalytic reduction of oxygen by peroxidase-modified carbon-felt".
Electroanalysis,
23, 1631-1637 (2011).
Y. Wang and Y. Hasebe
"Carbon felt-based bioelectrocatalytic flow-through detectors: Highly sensitive amperometric
determination of H2O2 based on a direct electrochemistry of a covalently
modified horseradish peroxidase using cyanuric chloride as a linking agent".
Sens. Actuators B,
155, 722-729 (2011).
Y. Wang and Y. Hasebe
"Acridine orange-induced
signal enhancement effect of tyrosinase-immobilized carbon-felt-based flow
biosensor for highly sensitive detection of monophenolic compounds"
Anal. Bioanal. Chem.,
399, 1151-1162 (2011).
Y. Wang and Y. Hasebe
”Carbon-felt based bioelectrocatalytic flow-detectors: Role of ultrasound irradiation during the
adsorption of horseradish peroxidase and thionine for highly sensitive
amperometric determination of H2O2"
Anal. Sci.,
27, 605-612 (2011).
Y. Wang and Y. Hasebe
"Carbon-felt-based
bioelectrocatalytic flow-detectors: Optimization of adsorption conditions of
horseradish peroxidase and thionine onto carbon-felt for highly sensitive
amperometric determination of H2O2"
Anal. Sci., 27, 401-407 (2011).
Y. Hasebe, Y. Wang, and K. Fukuoka
"Electropolymerized
poly(toluidine blue)-modified carbon felt for highly sensitive amperometric
determination of NADH in flow injection analysis".
J. Environ. Sci.,
23, 1050-1056 (2011).
Y. Wang and Y. Hasebe
"Tyrosinase-modified carbon felt-based flow-biosensors:
The role of ultra-sonication in shortening the enzyme immobilization time and
improving the sensitivity and selectivity"
J. Environ. Sci., 23,
1038-1043 (2011).
T. Gu, Y. Zhang, F.
Deng, J. Zhang, and Y. Hasebe
"Direct
electrochemistry of glucose oxidase and biosensing for glucose based on DNA/chitosan
film".
J. Environ. Sci.,
Suppl., S66-S69 (2011).
K. Takahashi, H. Odajima, S. Nuiya, and Y. Hasebe
”Redox reaction between m-thiocresol and riboflavin
glycosides with 2:1 complex formation; regulation by the steric effect of sugar
in the side chain”
Supramol. Chem., 23, 252-255 (2011).
Y. Wang, A. Okada, S.
Moriya, and Y. Hasebe
"Carbon felt-based bioelectrocatalytic flow detectors: Covalent modification of tyrosinase onto a
cyanuric chloride-activated carbon felt"
Sensor Lett.,
8, 677-684 (2010).
Y. Wang and Y. Hasebe
"Carbon
felt-based biocatalytic enzymatic flow detectors: Chemical modification of
tyrosinase onto amino-functionalized carbon felt using various coupling reagents"
Talanta,
79, 1135-1141 (2009).
T. Gu, Y. Liu, J.
Zhang, and Y. Hasebe
"Amperometric hydrogen
peroxide biosensor based on immobilization of DNA-Cu(II) in DNA/chitosan polyion
complex membrane".
J. Environ. Sci.,
Suppl., S56-59 (2009).
Y. Wang and Y. Hasebe
"Highly sensitive
biosensor for toxic phenol compounds using tyrosinase and acridine
orange-adsorbed carbon felt"
J. Environ. Sci., Suppl.,
S100-104 (2009).
Y. Hasebe, M. Fukuzawa,
and H. Matsuhisa
"Electrochemical
determination of Escherichia coli based on the measurement of bacterial catalase
activity using H2O2-selective organic/inorganic-hybrid sol-gel film-modified Pt
electrode."
J. Environ. Sci., Suppl., S44-47 (2009).
Y. Hasebe, R. Imai, M.
Hirono, and S. Uchiyama
"Carbon felt-based bioelectrocatalytic flow detectors: Highly sensitive amperometric determination
of hydrogen peroxide using adsorbed peroxidase and thionine.”
Anal. Sci,
23, 71-74 (2007).
T.
Gu and Y. Hasebe
“DNA-Cu(II) poly(amine) complex membrane as novel catalytic layer for highly sensitive amperometric
determination of hydrogen peroxide”
Biosens. Bioelectron.,
21, 2121-2128 (2006).
Y. Hasebe, T. Gu, and H. Kusakabe
"Glutamate biosensor using a
DNA-Cu(II)/polyamine membrane as a novel electrocataytic layer for cathodic
determination of hydrogen peroxide"
Electrochemistry, 74, 179-182 (2006).
Y. Hasebe, T.
Gu, and T. Fueki
"Lactate
biosensor based on coupled lactate oxidase/peroxidase system incorporated into
the DNA/poly(allylamine) polyelectrolyte membrane",
Sensor
Letters, 3, 304-308 (2005).
Y. Hasebe,
T. Gu, and H. Mogami
"Highly sensitive reagentless H2O2-sensing electrode based on DNA-polyamine membrane entrapping peroxidase and meldola’s blue",
ITE Letters, 6, 26-31 (2005).
Y. Hasebe and T. Gu
"DNA-Cu(II)
complex as a novel electrocatalyst for a hydrogen peroxide sensor".
J.
Electroanal. Chem., 576,177-181 (2005).
長谷部 靖、白井 貴行、長島 知宏、顧 婷婷、内山 俊一
"チオニン吸着カーボンフェルトを用いるフロースルー型電気化学検出器による還元型ニコチンアミドアデニンジヌクレチドのフローインジェクション分析゛
分析化学, 54, 1197-1183 (2005).
T. Gu and Y. Hasebe
"Peroxidase
and methylenblue-incorporated double-stranded DNA/polyamine membranes for
electrochemical sensing
of hydrogen peroxide",
Anal.
Chim. Acta, 525, 191-198 (2004).
H.
Nakamura,
R. Yamazaki, T. Shirai, H. Sano, Y. Nakamie,
K. Ikebukuro K. Yano, Y. Nomura, Y. Arikawa, Y. Hasebe,
Y. Masuda, and I. Karube
"Development
of an enzymatic flow-injection chemiluminescence system for determining
inorganic pyrophosphate ion",
Anal.
Chim. Acta, 518, 45–49 (2004).
S.
Uchiyama, M. Kobayashi, and Y. Hasebe
"Electrical
control of urease activity immobilized to the conductive polymer on the carbon
felt electrode"
Electroanalysis,
14, 1644-1647 (2002).
松浦 宏昭、水谷 文雄、長谷部 靖、内山 俊一
"水晶振動子マイクロバランス法を用いる溶液中タンパク質定量における高感度化手法の検討",
分析化学,
50, 903-906 (2001).
Y.
Ando, N. Mitsugi, K. Yano, Y. Hasebe, and I. Karube
“Initial
fermentation of sea sludge using aerobic and thermophilic microorganisms in a mangrove soil”
Bioresource
Technology, 50, 83-85 (2001).
Y. Hasebe, R. Murao, and S. Uchiyama
"Carbon felt-based reagentless amperometric hydrogen peroxide biosensor using co-immobilized toluidine blue O and horseradish peroxidase"
Electrochemistry, 68, 904-906 (2000).
Y. Hasebe and S. Uchiyama
"Amperometric flow-type L-histidine sensor using immobilized galactose oxidase
reactor, based on a novel catalytic activity induced by exogeous histidine."
Sens. Actuators B, 66, 12-15 (2000).
長谷部 靖、山内 哲也、新井 雅己、内山 俊一
”DNA固定化カーボンフェルトをリアクターとするDNA結合性薬物のフロー型バイオセンシング”
電気学会論文誌E 119-E, 571-575 (1999).
R. Matsukawa, K. Hatakeda, S. Ito, Y. Numata, H. Nakamachi, Y. Hasebe, S. Uchiyama,
M. Notoya, Z. Dubinsky, and I. Karube
"Eicosapentaenoic acid release from the red alga Pachymenniopsis
lanceolata by enzymatic degradation"
Appl. Biochem. Biotech. 80, 141-150 (1999).
Y. Hasebe, K. Nawa, S. Ujita, and S. Uchiyama
"Highly sensitive flow detection of uric acid based on an intermediate
regeneration of uricase"
Analyst, 123, 1775-1780 (1998).
Y. Hasebe, T. Akiyama, T. Yagisawa, and S. Uchiyama
"Enzyme-less amperometric biosensor for L-ascorbate using poly-histidine
copper complex as an alternative biocatalyst"
Talanta, 47, 1139-1147 (1998).
S. Uchiyama ,Y. Hasebe , H. Hamana, Y. Maeda, and Y. Yoshida
"Formation of aniline-bonded catechols in aqueous solution, and their
electrochemical behaviors at carbon felt electrode"
Electroanalysis, 10, 647-650 (1998).
M. Kitano, T. Yoshida, K. Maeda, R. Matukawa, Y. Hasebe, S. Uchiyama,
and I. Karube
"Degradation of chorella cells during composting."
J. Biotech. 66, 187-193 (1998).
Y.Hasebe, K.Yokobori, K.Fukasawa, T.Kogure,
and S.Uchiyama
"Highly sensitive electrochemical determination of Escherichia coli density
using tyrosinase-based chemically amplified biosensor"
Anal. Chim. Acta, 357, 51-54 (1997).
Y. Hasebe, S. Toda, K. Aoki, H. Tonobe, and S. Uchiyama
"Specific and amplified current responses to histidine and histamine using
immobilized copper-monoamine oxidase membrane electrode, based on
novel ascorbate oxidase activity induced by exogenous ligands"
Anal. Biochem., 251, 32-38 (1997).
Y. Hasebe, K. Hamada, T. Hirano, and S. Uchiyama
"Amperometric drug response of a DNA membrane electrode based on the
enzyme-mimic catalytic activity of a DNA-Copper(II) complex"
Anal. Commun., 34, 153-154 (1997).
S. Uchiyama, Y. Hasebe, and M. Tanaka
"L-ascorbate sensor with an immobilized ascorbate oxidase carbon felt prepared
by electropolymerization of pyrrole in cucumber juice.
Electroanalysis, 9, 176-178 (1997).
S. Uchiyama, Y. Hasebe, Y. Maeda, and Y. Yoshida
"Highly sensitive voltammograms of 4-aminodiphenylamine obtained by porous
carbon felt electrode, and estimation of hydrolysis rate constant of its quinonediimine state at a neutral pH"
Electroanalysis, 9, 822-826 (1997).
S. Uchiyama, Y. Hasebe, T. Ishikawa, and J. Nishimoto
"Formation of a stable adduct between 1,2-benzoquinone and dimethylamine
and its application to the spectrophotometric determination of 1,2-benzoquinone"
Anal. Chim. Acta, 351, 259-264 (1997).
K. Ikebukuro, A. Miyata, S. J. Cho, Y. Nomura, S. M. Chang, Y. Yamauchi,
Y. Hasebe, S. Uchiyama, and I. Karube
"Microbial cyanide sensor for monitoring a river water"
J. Biotechnology, 48, 73-80 (1996).
Y. Hasebe, K. Oshima, O. Takise, and S. Uchiyama
"Chemically amplified Kojic acid responses of tyrosinase-based biosensor, based
on inhibitory effect to substrate recycling driven by tyrosinase and L-ascorbic acid"
Talanta, 42, 2079-2085 (1995).
Y. Hasebe, S. Koide, K. Komoriya, and S. Uchiyama
"Chemically amplified current responses of FAD-enzyme electrodes based on the
intermediate regeneration induced by L-ascorbate"
Denki Kagaku, 63, 1106-1112 (1995).
S. Uchiyama, N. Itoi, and Y. Hasebe
"Chemically amplified detection of catecholamines by liquid chromatography
using an L-ascorbic acid carrier"
Electroanalysis, 7, 731-733 (1995).
Y. Hasebe, T. Hirano, and S. Uchiyama
"Determination of catecholamines and uric acid in biological fluids without
pretreatment, using the chemically amplified biosensor"
Sens. Actuators B, 24, 94-97 (1995).
Y. Hasebe, A. Gokan, and S. Uchiyama
"Chemically amplified xanthine and hypoxanthine sensors, based on substrate
recycling between the enzyme-substrate complex and substrate"
Anal. Chim. Acta, 302, 21-27 (1995).
S. Uchiyama, H. Shimizu, and Y. Hasebe
"Chemical Amplification of uric acid sensor responses by dithiothreithol"
Anal. Chem., 66, 1873-1876 (1994).
Y. Hasebe, Y. Tanaka, and S. Uchiyama
"Highly amplified spectrophotometry of polyphenols based on a cyclic reaction
between polyphenols and o-quinone compounds using tyrosinase and L-ascorbic acid"
Anal. Lett. 27, 41-53 (1994).
S. Uchiyama, Y. Kurokawa, Y. Hasebe, and S. Suzuki
"Rapid coulometry of tocopherols in ethanol and chloroform using ferricyanide
ion mediator"
Electroanalysis, 6, 63-66 (1994).
S. Uchiyama, S. Maeda, Y. Hasebe, and S. Suzuki
"Self-driven coulometry without an external electric source"
Anal. Chim. Acta, 285, 89-94 (1994).
Y. Hasebe, S. Terada, and S. Uchiyama
"Chemically amplified adrenal medulla hormone sensor, based on substrate
recycling using tyrosinase and L-ascorbic acid"
Anal. Sci., 9, 855-857 (1993).
Y. Hasebe, K. Takamori, and S. Uchiyama
"Enzyme-based chemically amplified flow-injection determination of catechol and
catecholamines using an immobilized tyrosinase reactor and L-ascorbic acid"
Anal. Chim. Acta, 282, 363-367 (1993).
S. Uchiyama, Y. Hasebe, H. Shimizu, and H. Ishihara
"Enzyme-based catechol sensor based on the cyclic reaction between catechol and
1,2 -benzoquinone, using L-ascorbate and tyrosinase"
Anal. Chim. Acta, 276, 341-345 (1993).
S. Uchiyama, Y. Hasebe, and S. Suzuki
"Amplified vitamin C sensor based on the cyclic reaction between L- ascorbic
acid and dehydroascorbic acid"
Electroanalysis, 5, 653-655 (1993).
内山 俊一、水沼 剛志、長谷部 靖、鈴木 周一
"ヘキサシアノ鉄(III)酸イオンをメデイエーターとする定電位クーロメトリーによるNADHの絶対定量"
分析化学, 42, 333-335 (1993).
J. Anzai, K. Sakamura, Y. Hasebe, and T. Osa
"Protein sensors based on the potentiometric
photoresponse of polymer membranes doped with photochromic spiropyran"
Anal. Chim. Acta, 281, 543-548 (1993).
J. Anzai, Y. Hasebe, Y. Tobiki, and T. Osa
"Potentiometric immunosensor based on photo-responsive
PVC/spirobenzopyran membrane"
Anal. Sci., 7, 883-886 (1991).
長谷部 靖、角谷 紀子、安斎 順一、上野 昭彦、長 哲郎
"光スイッチ型酵素センサー:スピロピラン含有ポリ(塩化ビニル)膜および酵素膜被覆電極の光誘起電位応答"
高分子論文集, 47, 927-934 (1990).
C. W. Chen, Y. Sasaki, Y. Hasebe, J. Anzai, A. Ueno,
and T. Osa
"Photo-switchable ion and enzyme sensors. Photoinduced
potentiometric response of glassy carbon electrode coated with polymer/enzyme dual
membranes"
Chem. Pharm. Bull., 37, 3316 -3319(1989).
Y. Hasebe, J. Anzai, A. Ueno, and T. Osa
"Photo-excitable membranes. Ion-selective photoresponse of
poly(vinyl chloride) membranes doped with nonactine and valinomycin"
Chem. Pharm. Bull., 37, 1307 -1310 (1989).
C. W. Chen, Y. Hasebe, J. Anzai, A. Ueno, and T. Osa
"Photo-excitable membranes. photoinduced potentiometric
response of poly(vinyl chloride)/spirobenzopyran/crown ether composite membranes modified with adenosine deiminase and
asparaginase"
Denki Kagaku, 56, 1040-1044 (1988).
Y. Hasebe, J. Anzai, A. Ueno, and T. Osa
"Photoinduced potentiometric response of poly(vinyl chloride)/spirobenzopyran/crown
ether composite membranes modified with urease"
J. Phys. Org. Chem., 1, 309-315 (1988).
J. Anzai, Y. Hasebe, A. Ueno, and T. Osa
"Photo-excitable membranes. Effects of pH of the solution on photoresponse of poly(vinyl chloride) membrane doped with a spirobenzopyran derivatives"
Bull. Chem. Soc. Jpn., 61, 2959- 2960 (1988).
J. Anzai, Y. Hasebe, A. Ueno, and T. Osa
"Photo-excitable membranes.Photoinduced potential changes
across poly(vinyl chloride)membranes. Doped with a photosensitive crown ether having lipophilic side chain"
J. Polym. Sci., Polym. Chem. Ed., 26, 1519-1529 (1988).
J. Anzai, Y. Hasebe, A. Ueno, and T. Osa
"Photo-excitable membranes. Photoinduced potential changes
across Poly(vinyl chloride) membrane doped with valinomycin and nonactin"
Bull. Chem. Soc. Jpn., 60, 3169-3173 (1987).
J. Anzai, Y. Hasebe, M. Shimada, A. Ueno, and T. Osa
"Enzyme reaction-dependent photoresponse of poly(vinyl
chloride)/spirobenzopyran membrane"
Maku(membrane), 12, 165-167 (1987).
J. Anzai, Y. Hasebe, A. Ueno, and T. Osa
"Photo-excitable membranes, Effects of nonactin as a membrane
additive on the photoresponse of poly(vinyl chloride)/spirobenzopyran membrane"
Bull. Chem., Soc. Jpn., 60, 1515-1516 (1987).
安斎 順一、長谷部 靖、上野 昭彦、長 哲郎
"ベンゾスピロピラン含有人工膜の光誘起膜電位"
高分子論文集, 43, 683-689 (1986).
---
著書・総説・解説---
Yue Wang,
Zhizhi Hu, Zhiqiang Zhang, Yasushi Hasebe
" Polyimides : Advances in Blends and Nanocomposites "
Edited by Damaceanu, Mariana-Dana, and Darie-Nita Raluca Nicoleta.
Chapter 8. Polyimide/carbon black nanocomposite film for electrochemical sensor
application.
Elsevier. p.293-323 (2023).
長谷部 靖、王 月
"生体分子固定化カーボンフェルトを用いるフローインジェクション分析式
電気化学バイオセンサー"(総合論文)
分析化学, 71, 13-24 (2022).
長谷部 靖
"新機能を付与したタンパク質とDNAの特異な反応を利用するバイオセンサ"
化学センサ(トピックス), 39(1) 2-7 (2020).
長谷部 靖
酵素トランスジューサーと酵素技術展開−酵素センサ&バイオ電池,そして酵素処理応用(食品,医薬,修復) 三林浩二
監修
第11章 酵素増幅反応を利用する高感度バイオセンサ
シーエムシー出版 p.101-109 (2020).
長谷部 靖
"DNAナノテクノロジーを利用するマイクロRNAの電気化学バイオセンサー"
ぶんせき(話題), No.10, 459-460 (2018).
長谷部 靖
”おもいつくまま・・・研究に関して思うこと”
化学センサ (巻頭言), 32(3) 103 (2016).
長谷部 靖
"タンパク質固定化カーボンフェルトを利用するフロー型電気化学バイオセンサ"
化学センサ(トピックス), 28(4)
167-174
(2012).
長谷部 靖
"機能化生体分子を利用する新規バイオセンサの開発"
化学センサ(トピックス), 26(2) 73-79
(2010).
内山 俊一、長谷部 靖
バイオ電気化学の実際−バイオセンサ・バイオ燃料電池の実用展開− 池田篤治
監修
第8章 クーロメトリックバイオセンサ
シーエムシー出版 p.145-153 (2007).
長谷部 靖
、内山 俊一
"酵素センサーによる生体試料分析"
ぶんせき(入門講座), 544-549(2002).
松浦 宏昭、水谷 文雄、長谷部 靖、内山 俊一
"溶液中タンパク分子の非標識高感度定量法"
超音波テクノ(解説), 76-79 (2002).
長谷部
靖
"西洋ワサビペルオキシダーゼ(HRP)を認識素子とするバイオセンサー"
化学センサ(トピックス),
14(4), 156-161 (2001).
長谷部
靖
"ビーズインジェクション分析法によるバイオアッセイ"
J. Flow. Injection
Anal., (Topics) 18, 162 (2001).
長谷部 靖
"分子認識を基礎とする分析化学" 内山 俊一 編
第10章 バイオアフィニティを利用する分析化学
第11章 バイオセンサー
宣協社 (1999)
内山 俊一、長谷部 靖
Annual Review "化学センサ 1998 バイオセンサ"
化学センサ(総説), 13(2), 72-79 (1999)
長谷部 靖、内山 俊一
"還元剤 が誘発する酵素増幅反応による高感度バイオセンサー"(総合論文)
日本化学会誌, 431-439 (1999).
長谷部 靖
"還元剤によるオキシダーゼ増幅反応を利用する高感度バイオセンサ"
化学センサ(トピックス), 12(3), 116-123 (1998)
Y. Hasebe and S. Uchiyama
"Tyrosinase-Based Recycling Biosensors; Application to highly
sensitive determination of Escherichia coli density.
Japanese Sensor Newsletters, 12, 36-41(1998)
Y. Hasebe and S. Uchiyama
"Amperometric drug sensor using DNA-membrane electrode based
on an inhibitory effect of DNA intercalation upon an enzyme-mimic catalytic activity of DNA-Cu(II) complex".
Japanese Sensor Newsletters, 11, 32-37 (1997)
長谷部 靖
Annual Review "化学センサ1995 バイオセンサ"
化学センサ(総説), 11(2), 56-69 (1996)
長谷部 靖
Annual Review "化学センサ1994 バイオセンサ"
化学センサ(総説), 10(2), 53- 63 (1995)
Y. Hasebe and S. Uchiyama
"Chemically amplified biosensors based on the intermediate regenetation induced by reducing agents".
Japanese Sensor Newsletters, 9, 12-15 (1995).
内山 俊一、長谷部 靖
"酸化酵素と還元剤を用いる化学増幅型バイオセンサ"
ぶんせき(創案と開発), No.7, 588-591(1995)
Y. Hasebe and S. Uchiyama
"Chemically amplified biosensors based on substrate recycling using a reducing
agent"
Japanese Sensor Newsletters, 7, 18-21 (1993).
長谷部 靖
"基質リサイクリングを利用したシグナル増幅型バイオセンサ"
電気化学, 61, 991 (1993)
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