Ohno & Nakamura Laboratory
Publications Year
LinkLink
2015
424 Production of 2-hydroxyacetylfuran from lignocellulosics treated with ionic liquid?water mixtures , K. Yoshioka, T. Yamada, H. Ohno, and H. Miyafuji, RSC Advances,2015, 5, 2405-72409. Link
424
423 Antistatic effects of ionic liquids for polyether-based polyurethanes,A. Tsurumaki, S. Tajima, T. Iwata, B. Scrosati, and H. Ohno, Electrochim. Acta, 2015, 175, 13-17. Link
422 Maintenance-free cellulose solvents based on onium hydroxides, M. Abe, K. Kuroda, and H. Ohno, ACS Sus. Chem. Eng., 2015, 3, 1771-1776. Link
422
421 Almost complete dissolution of woody biomass with tetra-n-butylphosphonium hydroxide aqueous solution at 60亷, M. Abe, S. Yamanaka, H. Yamada, T. Yamada, and H. Ohno, Green Chem., 2015, 17, 4432-4438. Link
421
Reversible water pumping by thermoresponsive polyelectrolyte hydrogels derived from ionic liquids, Y. Deguchi, Y. Kohno, and H. Ohno, Chem. Comm.,2015, in press. Link
Multi-enzyme anode composed of FAD-dependent and NAD-dependent enzymes with a single ruthenium polymer mediator for biofuel cells, R. Sakuta, K. Takeda, T. Ishida, K. Igarashi, M. Samejima, H. Ohno, and N. Nakamura, Electrochem. Commun.,2015, in press. Link
Is seven a minimum number of water molecules per ion pair for assured biological activity in ionic liquid/water mixtures?, H. Ohno, K. Fujita, and Y. Kohno, Physical Chemistry Chemical Physics.,2015, in press. Link
2D Assemblies of ionic liquid crystals based on imidazolium moieties: Formation of ion-conductive layers, J. Sakuda, M. Yoshio, T. Ichikawa, H. Ohno, and T. Kato, New J. Chem.,2015, in press. Link
Density fluctuations in aqueous solution of ionic liquid with lower critical solution temperature: Mixture of tetrabutylphosphonium trifluoroacetate and water, A. Nitta, T. Morita, S. Saita, Y. Kohno, H. Ohno, and K. Nishikawa, Chemical Physics Letters,2015, in press. Link
Antistatic effects of ionic liquids for polyether-based polyurethanes, A. Tsurumaki, S. Tajima, T. Iwata, B. Scrosati, and H. Ohno, Electrochim. Acta,2015, in press. Link
412 A novel pyrroloquinoline quinone-dependent 2-keto-D-glucose dehydrogenase from Pseudomonas aureofaciens, K. Umezawa, K. Takeda, T. Ishida, A. Makabe, K. Isobe, K. Koba, H. Ohno, M. Samejima, N. Nakamura, K. Igarashi, and M. Yoshida, J. Bacteriology, 2015, 197, 1322-1329. Link
411 A fine tuning of LCST-type phase transition of poly(ionic liquid)s in water, Y. Deguchi, Y. Kohno, and H. Ohno, Chem. Lett., 2015, 44, 238-240. Link
411
410 Liquid-crystalline electrolytes for lithium-ion batteries: ordered assemblies of a mesogen-containing carbonate and a lithium salt, J. Sakuda, E. Hosono, M. Yoshio, T. Ichikawa, T. Matsumoto, H. Ohno, H. Zhou, and T. Kato, Adv. Funct. Mat., 2015, 25, 1206-1212. Link
409 Molecular weight distribution of polysaccharides and lignin extracted from plant biomass with a polar ionic liquid analysed without derivatisation process, K. Kuroda, Y. Fukaya, T. Yamada, and H. Ohno Analytical Methods, 2015, 7, 1719-1726. Link
409
408 Characterization of a Novel PQQ-Dependent Quinohemoprotein Pyranose Dehydrogenase from Coprinopsis cinerea Classified into Auxiliary Activities Family 12 in Carbohydrate-Active Enzymes, K. Takeda, H. Matsumura, T. Ishida, M. Samejima, H. Ohno, M. Yoshida, K. Igarashi, N. Nakamura PLOS ONE, 2015, 10, e0115722-e0115737. Link
407 Real-time dynamic adsorption processes of cytochrome c on an electrode observed through electrochemical high-speed atomic force microscopy, K. Takeda, T. Uchihashi, H. Watanabe, T. Ishida, K. Igarashi, N. Nakamura, and H. Ohno, PLOS ONE, 2015, 10, e0116685- e0116694. Link
406 A simple recovery process for biodegradable plastics accumulated in cyanobacteria treated with ionic liquids, D. Kobayashi, K. Fujita, N. Nakamura, and H. Ohno, Applied Microbiology and Biotechnology, 2015, 99, 1647-1653. Link
405 Columnar nanostructured polymer films containing ionic liquids in supramolecular one-dimensional nanochannels, A. Yamashita, M. Yoshio, S. Shimizu, T. Ichikawa, H. Ohno, and T. Kato, Polym. Sci., Part A., 2015, 53, 366-371. Link
2014
404 Ammonium based zwitterions showing both LCST- and UCST-type phase transition with water in a very narrow temperature range, S. Saita, Y. Mieno, Y. Kohno, and H. Ohno, . Chem.Comm., 2014,50,15450-15452.
403 Design of ionic liquid-derived polyelectrolyte gels toward reversible water absorption/desorption system drived by small temperature change, Y. Deguchi, Y. Kohno, and H. Ohno, Australian J. Chem., 2014, 67, 1666-1670.
402 Transparent and colourless room temperature ionic liquids having high refractive index over 1.60,Y. Kayama, T. Ichikawa, and H. Ohno, Chem.Comm., 2014, 50, 14790-14792. Link
401 1H NMR evaluation of polar and nondeuterated ionic liquids for selectiveextraction of cellulose and xylan from wheat bran,K. Kuroda, H. Kunimura, Y. Fukaya, N. Nakamura, and H. Ohno, ACS Sustainable Cemistry & Engineering, 2014, 2(9), 2204-2210. Link
401
400 Discovery of Eukaryotic Pyrroloquinoline Quinone-Dependent Oxidoreductase Belonging to a New Auxiliary Activity Family in the Database of Carbohydrate-Active Enzymes, H. Matsumura, K. Umezawa, K. Takeda, N. Sugimoto, T. Ishida, M. Samejima, H. Ohno, M. Yoshida, K. Igarashi, N. Nakamura,Plos One, 2014, 9(8), e104851., Link
399 Design of Amphiphilic Zwitterions Forming Liquid-Crystalline Phases and Effects of Lithium Salts Addition on Their Phase Behavior , T. Matsumoto, T. Ichikawa, J. Sakuda, T. Kato, and H. Ohno, Bull. Chem. Soc Jpn., 2014, 87(7), 792-796., Link
399
398 Effect of amines as activators on the alcohol-oxidizing activity of pyrroloquinoline quinone-dependent quinoprotein alcohol dehydrogenase, K. Takeda, T. Ishida, M. Samejima, K. Igarashi, N. Nakamura, H. Ohno, Bioscience, Biotechnology, and Biochemistry, 2014, 78(7), 1195-1198., Link
397 Macroscopic photocontrol of ion-transporting pathways of a nanostructured imidazolium-based photoresponsive liquid crystal, E. Uchida, B. Soberats, M. Yoshio, J. Kagimoto, H. Ohno, and T. Kato, J. Amer. Chem. Soc., 2014, 136, 9552-9555. Link
397
396 Bis(trifluoromethanesulfonyl)imide-type ionic liquids as excellent antistatic agents for polyurethanes, T. Iwata, A. Tsurumaki, S. Tajima and H. Ohno, Macromolecular Materials and Engineering, 2014, 299, 794-798. Link
396
395 1H NMR analysis of cellulose dissolved in non-deuterated ionic liquids, K. Kuroda, H. Kunimura, Y. Fukaya, and H. Ohno, Cellulose, 2014, 21, 2199-2206. Link
394 Fixation of ionic liquids into polyether-based polyurethane films to maintain long-term antistatic properties, T. Iwata, A. Tsurumaki, S. Tajima and H. Ohno, Polymer, 2014, 55(10), 2501-2504. Link
394
393 Synthesis and characterization of polymerized ionic liquids: mechanical and thermal properties of a novel type of hydrogels, J. Bandomir, A. Schulz, S. Taguchi, L. Schmitt, H. Ohno, K. Sternberg, K.-P. Schmitz, and U. Kragl, Macromolecular Chemistry and Physics, 2014, 215(8), 716-724. Link
393
392 A bioanode using thermostable alcohol dehydrogenase for an ethanol biofuel cell operating at high temperature, A. Kontani, M. Masuda, H. Matsumura, N. Nakamura, M. Yohda, and H. Ohno, Electroanalysis, 2014, 26(4), 682-686. Link
391 2-(Trimethylazaniumyl)ethyl hydrogen phosphate (phosphocholine) monohydrate, Y. Nikawa, K. Fujita, K. Noguchi, and H. Ohno, Acta Cryst., 2014, E70, o549. Link
391
390 Dissolution of wet wood biomass without heating, M. Abe, T. Yamada, and H. Ohno, RSC Advances, 2014,2014, 4, 17136-17140. Link
390
389 An advanced ionic liquid-lithium salt electrolyte mixture based on the bis(fluoromethanesulfonyl)imide anion, Y. Deguchi, J.S. Moreno, S. Panero, B. Scrosati, H. Ohno, and G.B. Appetecchi, Electrochem. Commun., 2014, 43, 5-8. Link
389
388 Identification of the rate-limiting step of the peroxygenase reactions catalyzed by the thermophilic cytochrome P450 from Sulfolobus tokodaii strain 7, S. Hayakawa, H. Matsumura, N. Nakamura, M. Yohda, and H. Ohno, FEBS J., 2014, 281, 1409-1416. Link
2013
387 Designer lyotropic liquid-crystalline systems containing amino acid ionic liquids as self-organisation media of amphiphiles, T. Ichikawa, K. Fujimura, M. Yoshio, T. Kato, and H. Ohno, Chem. Comm., 2013, 49, 11746 - 11748. Link
387
386 Temperature-driven and reversible assembly of homopolyelectrolytes derived from suitably designed ionic liquids in water, Y. Kohno, Y. Deguchi, N. Inoue, and H. Ohno, Australian J. Chem., 2013, 66, 1393-1398. Link
386
385 Design and evaluation of nano-biphasic ionic liquid systems having highly polar and low polar domains, S. Taguchi, T. Ichikawa, T. Kato, and H. Ohno, RSC Advances, 2013, 3, 23222-23227. Link
385
384 3D Anhydrous proton-transporting nanochannels formed by self-assembly of liquid crystals composed of a sulfobetaine and a sulfonic acid, B. Soberats, M. Yoshio, T. Ichikawa, S. Taguchi, H. Ohno, and T. Kato, J. Am. Chem. Soc., 2013, 135, 15286-15289. Link
384
383 Introduction of hydrophilic groups onto the ortho-position of benzoate anions induced phase separation of the corresponding ionic liquids with water, T. Ando, Y. Kohno, N. Nakamura, and H. Ohno, Chem. Comm., 2013, 49, 10248-10250. Link
383
382 Ionic liquids showing phase separation with water prepared by mixing hydrophilic and polar amino acid ionic liquids, S. Saita, Y. Kohno, N. Nakamura, and H. Ohno, Chem. Comm., 2013, 49, 8988-8990. Link
382
381 Improvement of an electrode modified with electropolymerized ruthenium complexes to enhance the electrocatalytic activity toward NADH oxidation, M. Masuda, N. Nakamura, and H. Ohno, J. Electrochem. Soc., 2013, 160, G3135-G3138. Link
380 The two-step electrochemical oxidation of alcohols using a novel recombinant PQQ alcohol dehydrogenase as a catalyst for a bioanode, K. Takeda, H. Matsumura, T. Ishida, M. Samejima, K. Igarashi, N. Nakamura, and H. Ohno, Bioelectrochemistry, 2013, 94, 75-78. Link
380
379 Design of phosphonium-type zwitterion as an additive to improve saturated water content of phase-separated ionic liquid from aqueous phase toward reversible extraction of proteins, Y. Ito, Y. Kohno, N. Nakamura, and H. Ohno, Int. J. Mol. Sci., 2013, 14, 18350-18361. Link
379
378 Phosphonium phosphonate-type zwitterion-water mixed systems showing variable hydrogen bonding ability as a function of temperature, Y. Fukaya and H. Ohno, Phys. Chem. Chem. Phys., 2013, 15, 14941-14944. Link
378
377 Selected as a front cover article!
Direct HPILC analysis on cellulose depolymerisation in ionic liquids, K. Kuroda, Y. Fukaya, and H. Ohno, Anal. Methods, 2013, 5, 3172-3176. Link
377
376 Facile synthesis of thermally stable benzimidazolate-type ionic liquids, Y. Tsuji and H. Ohno, Chem. Lett., 2013, 42, 527-529. Link
376
375 Cold crystallisation behaviour of water molecules in ionic liquids as a screening method to evaluate biocompatibility of the hydrated ionic liquids, K. Fujita, Y. Nikawa, and H. Ohno, Chem. Commun., 2013, 49, 3257-3259. Link
375
374 Hydrophobic and polar ionic liquids, Y. Fukaya and H. Ohno, Phys. Chem. Chem. Phys., 2013, 15, 4066-4072. Link
374
373 N-n-Butyl-N-methylpyrrolidinium hexafluorophosphate-added electrolyte solutions and membranes for lithium-secondary batteries, A. Tsurumaki, M. A. Navarra, S. Panero, B. Scrosati, and H. Ohno, J. Power Sources, 2013, 233, 104-109. Link
2012
372 Direct dissolution of wet and saliferous marine microalgae by polar ionic liquids without heating, K. Fujita, D. Kobayashi, N. Nakamura, and H. Ohno, Enzyme and Microbial Tech., 2013, 52, 199-202. Link
372
371 Spectroscopic characterization of the acid-alkaline transition of a thermophilic cytochrome P450, S. Hayakawa, H. Matsumura, N. Nakamura, M. Yohda, and H. Ohno, FEBS Lett., 2013, 587, 94-47. Link
370 Detection of small differences in the hydrophilicity of ions using the LCST-type phase transition of an ionic liquid-water mixture, S. Saita, Y. Kohno, and H. Ohno, Chem. Commun., 2013, 49, 93-95. Link
370
369 Electrocatalytic reduction of oxygen by bilirubin oxidase in hydrophobic ionic liquids containing a small quantity of water, J. Kuwahara, R. Ikari, K. Murata, N. Nakamura, and H.Ohno, Catalysis Today, 2013, 200, 49-53. Link
369
368 A paradoxical method for NAD+/NADH accumulation on an electrode surface using a hydrophobic ionic liquid, M. Masuda, Y. Motoyama, J. Kuwahara, N. Nakamura, and H. Ohno, Biosensors and Bioelectronics, 2013, 39, 334-337. Link
367 Insect biofuel cells using trehalose included in insect hemolymph leading to an insect-mountable biofuel cell, K. Shoji, Y. Akiyama, M. Suzuki, T. Hoshino, N. Nakamura, H. Ohno, and K. Morishima, Biomed Microdevices, 2012, 14, 1063-1068. Link
366 Selective transport of water-soluble proteins from aqueous to ionic liquid phase via a temperature-sensitive phase change of these mixtures, Y. Kohno, N. Nakamura, and H. Ohno, Australian J. Chem., 2012, 65, 1548-1553. Link
366
365 Ionic liquid-derived charged polymers to show highly thermoresponsive LCST-type transition with water at desired temperatures, Y. Kohno, Y. Deguchi, and H. Ohno, Chem. Commun., 2012, 48, 11883-11885. Link
365
364 Contracting cardiomyocytes in hydrophobic room-temperature ionic liquid, T. Hoshino, K. Fujita, A. Higashi, K. Sakiyama, H. Ohno, and K. Morishima, Biochem. Biophys. Res. Commun., 2012, 427, 379-384. Link
364
363 Facile preparation of hydroxide ion or proton conductive ionic liquids by mixing tetra-n-butylphosphonium hydroxide and benzimidazole, Y. Tsuji and H. Ohno, RSC Advances, 2012, 2, 11279-11284. Link
363
362 Addition of suitably-designed zwitterion improves the saturated water content of hydrophobic ionic liquids, Y. Ito, Y. Kohno, N. Nakamura, and H. Ohno, Chem. Commun., 2012, 48, 11220-11222. Link
362
361 3D Continuous water nano-sheet as a gyroid minimal surface formed by bicontinuous cubic liquid-crystalline zwitterions, T. Ichikawa, T. Kato, and H. Ohno, J. Am. Chem. Soc., 2012, 134, 11354-11357.
Link
361
360 Selected as a feature article!
Ionic liquid/water mixtures: from hostility to conciliation, Y. Kohno and H. Ohno, Chem. Commun., 2012, 48, 7119-7130.
Link
360
359 Co-organisation of ionic liquids with amphiphilic diethanolamines: construction of 3D continuous ionic nanochannels through the induction of liquid-crystalline bicontinuous cubic phases, T. Ichikawa, M. Yoshio, S. Taguchi, J. Kagimoto, H. Ohno, and T. Kato, Chem. Sci., 2012, 3, 2001-2008.
Link
359
358 Stable G-quadruplex structure in a hydrated ion pair: cholinium cation and dihydrogen phosphate anion, K. Fujita and H. Ohno, Chem. Commun., 2012, 48, 5751-5753.
Link
358
357 The effect of particle size on the direct electron transfer reaction of metalloproteins using Au nanoparticle-modified electrodes, M. Suzuki, K. Murata, N. Nakamura, and H. Ohno, Electrochemistry, 2012, 80, 337-339.
Link
356 Nano-biphasic ionic liquid systems composed of hydrophobic phosphonium salts and a hydrophilic ammonium salt, S. Taguchi, T. Ichikawa, T. Kato, and H. Ohno, Chem. Commun., 2012, 48, 5271-5273.
Link
356
355 棤昞巻偵嵦梡偝傟傑偟偨!
Temperature-responsive ionic liquid/water interfaces: relation between hydrophilicity of ions and dynamic phase change, Y. Kohno and H. Ohno, Phys. Chem. Chem. Phys., 2012, 14, 5063-5070.
Link
355
354 Induction of thermotropic bicontinuous cubic phases in liquid-crystalline ammonium and phosphonium salts, T. Ichikawa, M. Yoshio, A. Hamasaki, S. Taguchi, F. Liu, X. Zeng, G. Ungar, H. Ohno, and T. Kato, J. Am. Chem. Soc., 2012, 134, 2634-2643.
Link
354
353 Key factors to prepare polyelectrolytes showing temperature-sensitive LCST-type phase transition in water, Y. Kohno and H. Ohno, Australian J. Chem., 2012, 65, 91-94.
Link
353
352 Cytochrome c dissolved in 1-allyl-3-methylimidazolium chloride type ionic liquid undergoes a quasi-reversible redox reaction up to 140 ℃, K. Tamura, N. Nakamura, and H. Ohno, Biotechnol. Bioeng., 2012, 109, 729-735.
Link
352
351 Fast and facile dissolution of cellulose with tetrabutylphosphonium hydroxide containing 40 wt% water, M. Abe, Y. Fukaya, and H. Ohno, Chem. Commun., 2012, 48, 1808-1810.
Link
351
2011
350 Material design of ionic liquids to show temperature-sensitive LCST-type phase transition after mixing with water, Y. Kohno, H. Arai, S. Saita, and H. Ohno, Australian J. Chem., 2011, 64, 1560-1567.
Link
350
349 Preparation of an Electrode Modified with an Electropolymerized Film as a Mediator of NADH Oxidation and Its Application in an Ethanol/O2 Biofuel Cell, M. Masuda, Y. Motoyama, K. Murata, N. Nakamura, and H. Ohno, Electroanalysis, 2011, 23, 2297-2301.
Link
348 Gelation of an amino acid ionic liquid by the addition of a phosphonium-type zwitterion, S. Taguchi, T. Matsumoto, T. Ichikawa, T. Kato, and H. Ohno, Chem. Commun., 2011, 47, 11342-11344.
Link
348
347 Electrochemical analysis of electrode-immobilized dehydrogenases in hydrated choline dihydrogen phosphate type ionic liquid, K. Fujita, N. Nakamura, K. Murata, K. Igarashi, M. Samejima, and H. Ohno, Electrochim. Acta, 2011, 56, 7224-7227.
Link
346 Properties of polymer electrolytes composed of poly(ethylene oxide) and ionic liquids according to hard and soft acids and bases theory, A. Tsurumaki, J. Kagimoto, and H. Ohno, Polym. Adv. Technol., 2011,22, 1223-1228.
Link
345 Anisotropic proton-conductive materials formed by the self-organization of phosphonium-type zwitterions, S. Ueda, J. Kagimoto, T. Ichikawa, T. Kato, and H. Ohno, Advanced Materials, 2011,23, 3071-3074.
Link
345
344 Lithium ion conduction in silatrane matrices, T. Mizumo, R. Fujita, H. Ohno, and J. Ohshita, Chem. Lett., 2011, 40, 798-800.
Link
343 Conformational evolution of TFSI- in protic and aprotic ionic liquids, A. Martinelli, A. Matic, P. Johansson, P. Jacobsson, L. Börjesson, A. Fernicola, S. Panero, B. Scrosati, and H. Ohno, J. Raman Spectroscopy, 2011, 42, 522-528.
Link
342 Dual stimuli-responsive phase transition of an ionic liquid/water mixture, Y. Kohno, H. Arai, and H. Ohno, Chem. Commun., 2011, 47, 4772-4774.
Link
342
341 Monooxygenation by a thermophilic cytochrome P450 via direct electron donation from NADH, H. Matsumura, K. Matsuda, N. Nakamura, A. Ohtaki, H. Yoshida, S. Kamitori, M. Yohda and H. Ohno, Metallomics, 2011, 3, 389-395
Link
341
340 Extraction of proteins with temperature sensitive and reversible phase change of ionic liquid/water mixture, Y. Kohno, S. Saita, K. Murata, N. Nakamura, and H. Ohno, Polym. Chem., 2011, 2, 862-867.
Link
340
339 Simple synthesis of tetra-n-butylphosphonium benzimidazolate/benzimidazole mixture as a thermally stable proton conductor, Y. Tsuji, T. Mizumo, and H. Ohno, Chem. Commun., 2011, 47, 3132-3134.
Link
339
338 3D interconnected ionic nano-channels formed in polymer films: self-organization and polymerization of thermotropic bicontinuous cubic liquid crystals, T. Ichikawa, M. Yoshio, A. Hamasaki, J. Kagimoto, H. Ohno, and T. Kato, J. Am. Chem. Soc., 2011, 133, 2163-2169.
Link
338
337 High performance "ionic liquid" chromatography, Y. Fukaya, A. Tsukamoto, K. Kuroda, and H. Ohno, Chem. Commun., 2011, 47, 1994-1996.
Link
337
2010
336 Nanosegregated composites of an imidazolium salt and a layered inorganic compound: Organization of both anions and cations in interlayer space, Y. Oaki, H. Ohno, and T. Kato, Nanoscale, 2010, 2, 2362-2365.
Link
336
335 Proton transport properties in zwitterion blends with brønsted acids, M. Yoshizawa-Fujita, N. Byrne, M. Forsyth, D. R. MacFarlane, and H. Ohno, J. Phys. Chem. B, 2010, 114, 16373-16380.
Link
335
334 Ion channels and anisotropic ion mobility in a liquid-crystalline columnar phase as observed by multinuclear NMR diffusometry, A. E. Frise, S. V. Dvinskikh, H. Ohno, T. Kato, and I. Furó, J. Phys. Chem. B, 2010, 114, 15477-15482.
Link
334
333 In Japanese with English Abstract!
NAD 埶懚宆峺慺偺揹巕堏摦儊僨傿僄乕僞乕偲偟偰婡擻偡傞揝嶖懱揹夝廳崌枌偺嶌惢, 憹揷旤岾, 拞懞挩暥, 戝栰峅岾, 崅暘巕榑暥廤, 2010, 67, 611-613.
Link
332 Enzymatic activity and thermal stability of metallo proteins in hydrated ionic liquids, K. Fujita and H. Ohno, Biopolymers, 2010, 93, 1093-1099.
Link
331 Nanostructured liquid crystals combining ionic and electronic functions, S. Yazaki, M. Funahashi, J. Kagimoto, H. Ohno, and T. Kato, J. Am. Chem. Soc., 2010, 132, 7702-7708.
Link
331
330 Extraction of polysaccharides from bran with phosphonate or phosphinate-derived ionic liquids under short mixing time and low temperature, M. Abe, Y. Fukaya, and H. Ohno, Green Chem., 2010, 12, 1274-1280.
Link
330
329 Hydrophobic and low-density amino acid ionic liquids, J. Kagimoto, S. Taguchi, K. Fukumoto, and H. Ohno, J. Molecular Liq., 2010, 153, 133-138.
Link
328 A simple fabrication method for three-dimensional gold nanoparticle electrodes and their application to the study of the direct electrochemistry of cytochrome c, K. Murata, K. Kajiya, M. Nukaga, Y. Suga, T. Watanabe, N. Nakamura and H. Ohno, Electroanalysis, 2010, 22, 185-190.
Link
327 New hybrid inorganic-organic polymer electrolytes based on Zr(O(CH2)3CH3)4, glycerol and EMIm-TFSI ionic liquid, M. Jeyapandiana, S. Lavinaa, S. Thayumanasundarama, H. Ohno, E. Negroa, and V. Di Noto, J. Power Sources, 2010, 195, 341-353.
Link
326 Ion conductive behaviour in a confined nanostructure: NMR observation of self-diffusion in a liquid-crystalline bicontinuous cubic phase,A.E.Frise, T. Ichikawa, M. Yoshio, H. Ohno, S.V.Dvinskikh. T. Kato, and I. Furó, Chem. Commun., 2010, 46, 728-730.
Link
326
2009
325 Direct electrochemistry of bilirubin oxidase on three-dimensional gold nanoparticle electrodes and its application in a biofuel cell, K. Murata, K. Kajiya, N. Nakamura, and H. Ohno, Energy & Environmental Science., 2009, 2, 1280-1285.
Link
325
324 Direct evidence of electron flow via the heme c group for the direct electron transfer reaction of fructose dehydrogenase using a silver nanoparticle-modified electrode, K. Murata, M. Suzuki, N. Nakamura, and H. Ohno, Electrochem. Commun., 2009, 11, 1623-1626.
Link
323 The role of an amino acid triad at the entrance of the heme pocket in human serum albumin for O2 and CO binding to iron protoporphyrin IX, T. Komatsu, A. Nakagawa, S. Curry, E. Tsuchida, K. Murata, N. Nakamura, and H. Ohno, Org. Biomol. Chem., 2009, 7, 3836-3841.
Link
323
322 Quasi-reversible electrochromic behavior of alkyl viologens dispersed mono-molecularly in double-stranded DNA chains, T. Kakibe and H. Ohno, J. Materials Chem., 2009, 19, 4960-4964.
Link
322
321 Polarized optical waveguide spectroscopy: Effective tool to analyze adsorption process of dye molecules, H. Ohno, K. Taniguchi, and K. Fujita, Optical Review, 2009, 16, 233-240.
Link
320 Enhanced ionic conduction in organoboron ion gels facilely designed via condensation of cellulose with boric acids in ionic liquids, N. Matsumi, Y. Nakamura, K. Aoi, T. Watanabe, T. Mizumo, and H. Ohno, Polymer J., 2009, 41, 437-441.
Link
319 Electric-field-responsive lithium-ion conductors of propylenecarbonate-based columnar liquid crystals, M. Yoshio, A. Hamasaki, T. Mukai, H. Ohno, and T. Kato, Advanced Materials, 2009, 21, 1591-1594.
Link
319
318 Multistep coloring and bleaching of viologens monomolecularly incorporated in DNA, T. Kakibe, R. Kurihara, and H. Ohno, Chem. Lett., 2009, 38, 494-495.
Link
317 Novel thermotropic gels composed of only ions, J. Kagimoto, N. Nakamura, T. Kato and H. Ohno, Chem. Commun., 2009, 2405-2407.
Link
317
316 High performance bioanode based on direct electron transfer of fructose dehydrogenase at gold nanoparticle-modified electrodes, K. Murata, M. Suzuki, K. Kajiya, N. Nakamura, and H. Ohno, Electrochem. Commun., 2009, 11, 668-671.
Link
315 Design and evaluation of imidazolium cation-based ionic liquids having double-armed anions for selective cation conduction, W. Shibayama, A. Narita, N. Matsumi, and H. Ohno, J. Organometallic Chem., 2009, 694, 1642-1645.
Link
315
314 Tetramethylammonium dihydrogen phosphate hemihydrate, K. Fujita, D. R. MacFarlane, K. Noguchi and H. Ohno, Acta Cryst., 2009, E65, o797.
Link
314
313 Biocatalytic oxidation of cellobiose in an hydrated ionic liquid, K. Fujita, N. Nakamura, K. Igarashi, M. Samejima and H. Ohno, Green Chem., 2009, 11, 351-354.
Link
313
312 Choline dihydrogen phosphate, K. Fujita, D. R. MacFarlane, K. Noguchi and H. Ohno, Acta Cryst., 2009, E65, o709.
Link
312
311 Task specific ionic liquids for cellulose technology, H. Ohno and Y. Fukaya, Chem. Lett., 2009, 38, 2-7.
Link
311
2008
310 Thermally stable and proton conductive ionogel based on brönsted acidic ionic liquid with the support of silicate network, T. Mizumo, T. Watanabe, and H. Ohno, Polymer J., 2008, 40, 1099-1104.
Link
309 Preparation of ion conductive inorganic-organic composite systems by in situ sol-gel reaction of polymerizable ionic liquids, T. Mizumo, T. Watanabe, N. Matsumi, and H. Ohno, Polym. Adv. Technol., 2008, 19, 1445-1450.
Link
308 Solubilization of heme proteins in low polar solvents by chemical modification on a protein's surface, S. Sakai, L. Kodama, H. Matsumura, N. Nakamura, M. Yohda, and H. Ohno, Polym. Adv. Technol., 2008, 19, 1430-1435.
Link
307 Columnar liquid-crystalline assemblies composed of spiropyran derivatives and sulfonic acids, B-H. Tan, M. Yoshio, K. Watanabe, A. Hamasaki, H. Ohno and T. Kato, Polym. Adv. Technol., 2008, 19, 1362-1368.
Link
306 Polar and low viscosity ionic liquid mixtures from amino acids, J. Kagimoto, K. Noguchi, K. Murata, K. Fukumoto, N. Nakamura, and H. Ohno, Chem Lett., 2008, 37, 1026.
Link
305 Electrocatalytic oxidation of NADH on electrochemically oxidized carbon fiber paper electrodes for a simple biofuel cell anode, K. Murata, N. Nakamura, and H. Ohno, Electrochemistry, 2008, 76, 563-565.
ISSN: 13443542
NII Article ID: 10021027869
Link
304 Improvement in the tribological properties of imidazolium-derived ionic liquids by additive technology, I. Minami, N. Watanabe, H. Nanao, S. Mori, K. Fukumoto, and H. Ohno, J. Synthetic Lubrication, 2008, 25, 45-55.
Link
303 A characteristic reaction of lignin in ionic liquids; Glycelol type enol-ether as the primary decomposition product of 兝-O-4 model compound, S. Kubo, K. Hashida, T. Yamada, S. Hishiyama, K. Magara, M. Kishino, H. Ohno and S. Hosoya, J. Wood Chem. Technol., 2008, 28, 84-96.
Link
302 Preparation of an electrode that immobilizes NAD-dependent alcohol dehydrogenase by using a redox polymer containing 1,10-phenanthroline-5,6-dione, Y. Motoyama, N. Nakamura and H. Ohno, Electroanalysis, 2008, 20, 923-926.
Link
301 Aspartic acid-derived wear-preventing and friction-reducing agents for ionic liquids, I. Minami, N. Watanabe, H. Nanao, S. Mori, K. Fukumoto and H. Ohno, Chem. Lett., 2008, 37, 300-301.
Link
300 Modulation of redox potential and alteration in reactivity via the peroxide shunt pathway by mutation of cytochrome P450 around the proximal heme ligand, H. Matsumura, M. Wakatabi, S. Omi, A. Ohtaki, N. Nakamura, M. Yohda, and H. Ohno, Biochemistry, 2008, 47, 4834-4842.
Link
300
299 Noncovalent approach to one-dimensional ion conductors: Enhancement of ionic conductivities in nanostructured columnar liquid crystals, H. Shimura, M. Yoshio, K. Hoshino, T. Mukai, H. Ohno, and T. Kato, J. Amer. Chem. Soc., 2008, 130, 1759-1765.
Link
299
298 Ionic liquid crystals: Self-assembly of imidazolium salts containing an L-glutamic acid moiety, T. Mukai, H. Ohno, and T. Kato, Chem. Lett., 2008, 37, 538-539.
Link
297 Electron tunneling through Pseudomonas aeruginosa azurins on SAM gold electrodes, K.Yokoyama, B.S. Leigh, Y Sheng, K. Niki, N. Nakamura, H Ohno, J.R. Winkler, H.B. Gray, and J.H. Richards, Inorg. Chim. Acta, 2008, 361, 1095-1099.
Link
297
296 Elucidation of the factors affecting the oxidative activity of Acremonium sp. HI-25 ascorbate oxidase by an electrochemical approach, K. Murata, N. Nakamura, and H. Ohno, Biochem. Biophys. Res. Commun., 2008, 367, 457-461.
Link
295 Immobilization of heptyl viologens in DNA strands both to inhibit dimerization and to accelerate quasi-reversible electron transfer reaction, T. Kakibe and H. Ohno, Chem. Commun., 2008, 377-379.
Link
295
294 Thermally stable polymer gel electrolytes composed of branched polyimide and ionic liquid/zwitterion mixture prepared by in situ polycondensation, M. Tamada, S. Ueda, T. Hayashi, and H. Ohno, Chem. Lett., 2008, 37, 86-87.
Link
293 Cellulose dissolution with polar ionic liquids under mild conditions: Required factors for anions, Y. Fukaya, K. Hayashi, M. Wada, and H. Ohno, Green Chem., 2008, 10, 44-46.
Link
293
2007
292 Amino acid ionic liquids, H. Ohno and K. Fukumoto, Accounts of Chemical Research, 2007, 40, 1122-1129.
Link
291 LiTFSI-BEPyTFSI as an improved ionic liquid electrolyte for rechargeable lithium batteries, A. Fernicola, F. Croce, B. Scrosati, T. Watanabe, and H. Ohno, J. Power. Sources, 2007, 174, 342-348.
Link
290 Physical properties of proton conducting membranes based on a protic ionic liquid, A. Martinelli, A. Matic, P. Jacobsson, L. Borjesson, A. Fernicola, S. Panero, B. Scrosati, and H. Ohno, J. Phys. Chem, B, 2007, 111, 12462-12467.
Link
289 Bio ionic liquids: Room temperature ionic liquids composed wholly of biomaterials, Y. Fukaya, Y. Iizuka, K. Sekikawa, and H. Ohno, Green Chem., 2007, 9, 1155-1157.
Link
289
288 Columnar liquid-crystalline imidazolium salts. Effects of anions and cations on mesomorphic properties and ionic conductivities, M. Yoshio, T. Ichikawa, H. Shimura, T. Kagata, A. Hamasaki, T. Mukai, H. Ohno, and T. Kato, Bull. Chem. Soc. Jpn., 2007, 80, 1836-1841.
Link
287 Control of ionic conductivity of ionic liquid/photoresponsive poly(amide acid) gels by photoirradiation, M. Tamada, T. Watanabe, K. Horie, and H. Ohno, Chem. Commun., 2007, 39, 4050-4052.
Link
287
286 Uniaxially parallel alignment of a smectic A liquid-crystalline rod-coil molecule and its lithium salt complexes using rubbed polyimides, Y. Iinuma, K. Kishimoto, Y. Sagara, M. Yoshio, T. Mukai, I. Kobayashi, H. Ohno, and T. Kato, Macromolecules, 2007, 40, 4874-4878.
Link
286
285 Self-organization of room temperature ionic liquids exhibiting liquid crystalline bicontinuous cubic phases: Formation of nano-ion channel networks, T. Ichikawa, M. Yoshio, A. Hamasaki, T. Mukai, H. Ohno, and T. Kato, J. Amer. Chem. Soc., 2007, 129, 10662-10663.
Link
285
284 Miscibility and phase behavior of water-dicarboxylic acid type ionic liquid mixed systems, Y. Fukaya, K. Sekikawa, K. Murata, N. Nakamura, and H. Ohno, Chem. Commun., 2007, 29, 3089-3091.
Link
284
283 Solubility and stability of cytochrome c in hydrated ionic liquids: Effect of oxo acid residues and kosmotropicity, K. Fujita, D.R. MacFarlane, M. Forsyth, M. Yoshizawa-Fujita, K. Murata, N. Nakamura, and H. Ohno, Biomacromolecules, 2007, 8, 2080-2086.
Link
283
282 New types of Brönsted acid-base ionic liquids-based membranes for applications in PEMFCs, A. Fernicola, S. Panero, B. Scrosati, M. Tamada, and H. Ohno, ChemPhysChem, 2007, 8, 1103-1107.
Link
282
281 The electrochemical properties of thermophilic cytochrome P450 CYP119A2 at extremely high temperatures in poly(ethylene oxide), H. Matsumura, N. Nakamura, M. Yohda, and H. Ohno, Electrochem. Commun., 2007, 9, 361-364.
Link
280 Spectroscopic and electrochemical characterization of cytochrome P450st-DDAB films on a plastic-formed carbon electrode, S. Wiwatchaiwong, H. Matsumura, N. Nakamura, M. Yohda, and H. Ohno, Electroanalysis, 2007, 19, 561-565.
Link
279 Direct electron transfer reaction of ascorbate oxidase immobilized by a self-assembled monolayer and polymer membrane combined system, K. Murata, N. Nakamura, and H. Ohno, Electroanalysis, 2007, 19, 530-534.
Link
278 Improved ionic conductivity of nitrile rubber/Li(CF3SO2)2N composites by adding imidazolium-type zwitterion, E. Marwanta, T. Mizumo, and H. Ohno, Solid State Ionics, 2007, 178, 227-232.
Link
277 LCST-type phase changes of a mixture of water and ionic liquids derived from amino acids, K. Fukumoto and H. Ohno, Angew. Chem. Int. Ed., 2007, 46, 1852-1855.
Link
277
276 Improved solubilization of pyromellitic dianhydride and 4,4亴-oxydianiline in ionic liquid by the addition of zwitterion and their polycondensation, M. Tamada, T. Hayashi, and H. Ohno, Tetrahedron Letters, 2007, 48, 1553-1557.
Link
276
275 Direct visible spectral analysis of solid samples by optical waveguide spectroscopy due to adsorbed sample molecules after sublimation, H. Takahashi, K. Fujita, and H. Ohno, Chem. Lett., 2007, 36, 116-117.
Link
2006
274 Superior solubility of polysaccharides in low viscosity, polar, and halogen-free 1,3-dialkylimidazolium formates, Y. Fukaya, A. Sugimoto, and H. Ohno, Biomacromolecules, 2006, 7, 3295-3297.
Link
274
273 Ionic conductivity of highly deproteinized natural rubber having various amount of epoxy group mixed with lithium salt, W. Klinklai, S. Kawahara, E. Marwanta, T. Mizumo, Y. Isono, and H. Ohno, Solid State Ionics, 2006, , .
Link
272 Spiropyran-based liquid crystals: The formation of columnar phases via acid-induced spiro-merocyanine isomerisation, B-H. Tan, M. Yoshio, T. Ichikawa, T. Mukai, H. Ohno, and T. Kato, Chem. Commun., 2006, 4703-4705.
Link
272
271 Functional design of ionic liquids, H. Ohno, Bull. Chem. Soc. Jpn., 2006, 79, 1665-1680.
Link
270 Chiral stability of phosphonium-type amino acid ionic liquids, K. Fukumoto, Y. Kohno, and H. Ohno, Chem. Lett., 2006, 35, 1252-1253.
Link
269 Ascorbate oxidase-catalyzed electrochemical reduction of dioxygen using 2,6-dichloroindophenol as an electron-transfer mediator, K. Murata, M. Sugihara, N. Nakamura, and H. Ohno, Chem. Lett., 2006, 35, 1232-1233.
Link
268 Polymerized ionic liquids via hydroboration polymerization as single ion conductive polymer electrolytes, N. Matsumi, K. Sugai, M. Miyake, and H. Ohno, Macromolecules, 2006, 39, 6924-6927.
Link
268
267 Spectroscopic characterization and electrochemistry of poly(ethylene oxide)-modified myoglobin in organic solvents, S. Wiwatchaiwong, N. Nakamura, and H. Ohno, Biotechnol. Prog., 2006, 22, 1276-1281.
Link
266 Proton-conducting ionic liquids based upon multivalent anions and alkylimidazolium cations, W. Ogihara, H. Kosukegawa, and H. Ohno, Chem. Commun., 2006, 3637-3639.
Link
266
265 A novel method for direct electrochemistry of a thermoacidophilic cytochrome P450, H. Matsumura, S. Wiwatchaiwong, N. Nakamura, M. Yohda, and H. Ohno, Electrochem. Commun., 2006, 8, 1245-1249.
Link
264 Design and synthesis of hydrophobic and chiral anions from amino acids as precursor for functional ionic liquids, K. Fukumoto and H. Ohno, Chem. Commun., 2006, 3081-3083.
Link
264
263 Stability of thermophilic cytochrome P450 modified with poly(ethylene oxide) in ionic liquid, S. Wiwatchaiwong, H. Matsumura, N. Nakamura, M. Yohda, and H. Ohno, Chem. Lett., 2006, 35, 798-799.
Link
262 One-dimensional ion-conductive polymer films: Alignment and fixation of ionic channels formed by self-organization of polymerizable columnar liquid crystals, M. Yoshio, T. Kagata, K. Hoshino, T. Mukai, H. Ohno, and T. Kato, J. Amer. Chem. Soc., 2006, 128, 5570-5577.
Link
262
261 Effect of tetrabutylphosphonium cation on the physico-chemical properties of amino-acid ionic liquids, J. Kagimoto, K. Fukumoto, and H. Ohno, Chem. Commun., 2006, 2254-2256.
Link
261
260 Thermally stable ion conductive polymer composites containing imide-anion-type zwitterions, A. Narita, W. Shibayama, M. Tamada, and H. Ohno, Polym. Bull., 2006, 57, 115-120.
Link
259 Novel ion conductive matrix via dehydrocoupling polymerization of imidazolium-type ionic liquid and lithium 9-borabicyclo[3,3,1]nonane hydride, A. Narita, W. Shibayama, N. Matsumi, and H. Ohno, Polym. Bull, 2006, 57, 109-114.
Link
258 Importance of poly(ethylene oxide)-modification and chloride anion for the electron transfer reaction of cytochrome c in 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide, H. Ohno, C. Suzuki, and K. Fujita, Electrochim. Acta, 2006, 51, 3685-3691.
Link
257 Lithium ion conduction in an organoborate zwitterion-LiTFSI mixture, A. Narita, W. Shibayama, K. Sakamoto, T. Mizumo, N. Matsumi, and H. Ohno, Chem. Commun., 2006, 1926-1928.
Link
257
256 Structural factors to improve physico-chemical properties of zwitterions as ion conductive matrices, A. Narita, W. Shibayama, and H. Ohno, J. Materials Chem., 2006, 16, 1475-1482.
Link
256
255 Electrochemical and spectroscopic analyses of lithium ion conductive polymers prepared by the copolymerization of ionic liquid monomer with lithium salt monomer, W. Ogihara, N. Suzuki, N. Nakamura and H. Ohno, Polymer J., 2006, 38, 117-121.
Link
254 Effect of cation structure on the electrochemical and thermal properties of ion conductive polymers obtained from polymerizable ionic liquids, W. Ogihara, S. Washiro, H. Nakajima, and H. Ohno, Electrochim. Acta, 2006, 51, 2614-2619.
Link
253 Chemical modification of cytochrome c by a ruthenium complex containing phenanthroline-quinone, K. Yokoyama, T. Asakura, N. Nakamura, and H. Ohno, Inorganic Chem. Commun., 2006, 9, 281-283.
Link
253
252 Structure and spectroelectrochemical property of a ruthenium complex containing phenanthroline-quinone, and assembly of the complexes on a gold electrode, K. Yokoyama, A. Wakabayashi, K. Noguchi, N. Nakamura, and H. Ohno, Inorg. Chim. Acta, 2006, 359, 807-814.
Link
252
251 In Japanese with English Abstract!
Effect of supporting electrolytes on the redox potential for thermophilic cytochrome P450 in poly(ethylene oxide)-for utilization as a catalyst for the biocathode, H. Matsumura, N. Nakamura, M. Yohda, and H. Ohno, Kobunshi Ronbunshu, 2006, 63, 68-70.
ISSN: 0386-2186
Link
2005
250 Nano-segregated polymeric film exhibiting high ionic conductivities, K. Kishimoto, T. Suzawa, T. Yokota, T. Mukai, H. Ohno, and T. Kato, J. Amer. Chem. Soc., 2005, 127, 15618-15623.
Link
250
2005
249 Preparation of thermally stable polymer electrolytes from imidazolium-type ionic liquid derivatives, H. Nakajima and H. Ohno, Polymer, 2005, 46, 11499-11504.
Link
248 Two dimensionally ion-conductive liquid crystals of cholesterol/tetra(ethylene oxide) block molecules, K. Kishimoto, Y. Sagara, T. Kato, T. Mukai, H. Ohno, and N. Tamaoki, Mol. Cryst. Liq. Cryst., 2005, 435, 777-785.
Link
247 Liquid imidazole-borane complex, N. Matsumi, A. Mori, K. Sakamoto and H. Ohno, Chem. Commun., 2005, 4557-4559.
Link
247
246 Electrocatalytic oxidation of NADH using a novel modified electrode with a ruthenium complex containing phenanthroline qinone, K. Yokoyama, Y. Ueda, N. Nakamura, and H. Ohno, Chem. Lett., 2005, 34, 1282-1283.
Link
245 Self-organization of protonated 2-heptadecylimidazole as an effective ion conductive matrix, T. Mukai, M. Yoshio, T. Kato, M. Yoshizawa-Fujita, and H. Ohno, Electrochemistry, 2005, 73, 623-626.
ISSN: 13443542
NII Article ID: 10015418800
Link
244 Characterization of carbohydrate-binding cytochrome b562 from the white-rot fungus Phanerochaete chrysosporium, M. Yoshida, K. Igarashi, M. Wada, S. Kaneko, N. Suzuki, H. Matsumura, N. Nakamura, H. Ohno, and M. Samejima, Appl. Environmental Micorbiology, 2005, 71, 4548-4555.
Link
243 Electron transfer chain reaction of the extracellular flavocytochrome cellobiose dehydrogenase from the basidiomycete Phanerochaete chrysosporium, K. Igarashi, M. Yoshida, H. Matsumura, N. Nakamura, H. Ohno, M. Samejima, and T. Nishino, FEBS Journal, 2005, 272, 2869-2877.
Link
242 Direct synthesis of poly(lithium organoborate)s and their ion conductive properties, N. Matsumi, K. Sugai, K. Sakamoto, T. Mizumo and H. Ohno, Macromolecules, 2005, 38, 4951-4954.
Link
241 Simple introduction of anion trapping site to polymer electrolytes through dehydrocoupling or hydroboration reaction using 9-borabicyclo[3.3.1]nonane, T. Mizumo, K. Sakamoto, N. Matsumi, and H. Ohno, Electrochim. Acta, 2005, 50, 3928-3933.
Link
240 Improved ionic conductivity of nitrile rubber/ionic liquid composites, E. Marwanta, T. Mizumo, N. Nakamura and H. Ohno, Polymer, 2005, 46, 3795-3800.
Link
239 DNA strands robed with ionic liquid moiety, N. Nishimura, Y. Nomura, N. Nakamura, and H. Ohno, Biomaterials, 2005, 26, 5558-5563.
Link
238 Novel polymer/salt hybrid composed of comblike organoboron polymer electrolyte and boron-stabilized imido anion, N. Matsumi, M. Nakashiba, T. Mizumo and H. Ohno, Macromolecules, 2005, 38, 2040-2042.
Link
237 Dynamic analysis of aggregation of methylene blue with polarized optical waveguide spectroscopy, K. Fujita, K. Taniguchi, and H. Ohno, Talanta, 2005, 65, 1066-1070.
Link
236 Anisotropic ion conduction in a unique smectic phase of self-assembled amphiphilic ionic liquids, T. Mukai, M. Yoshio, T. Kato, M. Yoshizawa, and H. Ohno, Chem. Commun., 2005, 1333-1335.
Link
236
235 Self-assembled N-alkylimidazolium perfluorooctanesulfonates, T. Mukai, M. Yoshio, T. Kato, and H. Ohno, Chem. Lett., 2005, 34, 442-443.
Link
234 Room temperature ionic liquids from 20 natural amino acids, K.Fukumoto, M. Yoshizawa and H. Ohno, J. Amer. Chem. Soc., 2005, 127, 2398-2399.
Link
234
2004
233 Molten salts bearing anion receptor, N. Matsumi, M. Miyake, and H. Ohno, Chem. Commun., 2004, 2852-2853.
Link
233
232 Effect of methyl groups onto imidazolium cation ring on liquid crystallinity and ionic conductivity of amphiphilic ionic liquids, T. Mukai, M. Yoshio, T. Kato, and H. Ohno, Chem. Lett, 2004, 33, 1630-1631.
Link
231 A new family of zwitterionic liquids arising from a phase transition of ammonium inner salts containing an ether bond, M. Yoshizawa and H. Ohno, Chem. Lett., 2004, 33, 1594-1595.
Link
230 Oriented structure of octadecyl acridine orange intercalated in the monolayer and Langmuir-Blodgett film of octadecyl adenine-thymine base pairs, K. Fujita, F. Nakamura, and H. Ohno, Polym. Adv. Technol., 2004, 15, 567-572.
Link
229 Development of new class of ion conductive polymers based on ionic liquids, H. Ohno, M. Yoshizawa, and W. Ogihara, Electrochim. Acta, 2004, 50, 255-261.
Link
228 Mimicking protein-protein electron transfer: Voltammetry of pseudomonas aeruginosa azurin and the thermus thermophilus CuA domain at 冎-derivatized self-assembled-monolayer gold electrodes, K. Fujita, N. Nakamura, H. Ohno, B.S. Leigh, K. Niki, H.B. Gray, and J.H. Richards, J. Am. Chem. Soc., 2004, 126, 13954-13961.
Link
228
227 Polarity measurement for ionic liquids containing dissociable protons, W. Ogihara, T. Aoyama, and H. Ohno, Chem. Lett., 2004, 33, 1414-1415.
Link
226 Allylimidazolium halides as novel room temperature ionic liquids, T. Mizumo, E. Marwanta, N. Matsumi, and H. Ohno, Chem. Lett., 2004, 33, 1360-1361.
Link
225 Self-assembly of an ionic liquid and a hydroxyl-terminated liquid crystal: Anisotropic ion conduction in layered nanostructures, M. Yoshio, T. Mukai, M. Yoshizawa, H. Ohno, and T. Kato, Mol. Cryst. Liq. Cryst., 2004, 413, 99-108.
Link
224 Anhydrous proton transport system based on zwitterionic liquid and HTFSI, M. Yoshizawa and H. Ohno, Chem. Commun., 2004, 1828-1829.
Link
224
223 Novel ionic liquids composed of only azole ions, W. Ogihara, M. Yoshizawa, and H. Ohno, Chem. Lett., 2004, 33, 1022-1023.
Link
222 Structure and direct electrochemistry of cytochrome P450 from the thermoacidophilic crenarchaeon, Sulfolobus tokodaii strain 7, Y. Oku, A. Ohtaki, S. Kamitori, N. Nakamura, M. Yohda, H. Ohno and Y. Kawarabayasi, J. Inorg. Biochem., 2004, 98, 1194-1199.
Link
221 Ionic conductivity of highly deproteinized natural rubber having epoxy group mixed with alkali metal salts, W. Klinklai, S. Kawahara, T. Mizumo, M. Yoshizawa, Y. Isono and H. Ohno, Solid State Ionics, 2004, 168, 131-136.
Link
220 Ion conductive characteristics of DNA containing PEO chains covalently bound on nucleic acid bases, N. Nishimura, S. Kokubo, and H. Ohno, Polym. Adv. Technol., 2004, 15, 335-339.
Link
219 Single ion conductive characteristics of poly(organoboron halide)-imidazole complex, N.Matsumi, T. Mizumo, and H. Ohno, Polymer Bull., 2004, 51, 389-394.
Link
218 Facile preparation of anion trapping polymer electrolytes by reaction between 9-borabicyclo[3.3.1]nonane (9-BBN) and poly(propylene oxide), T. Mizumo, K. Sakamoto, N.Matsumi, and H. Ohno, Chem. Lett., 2004, 33, 396-397.
Link
217 Preparation of comb like organoboron polymer electrolyte without generation of salt, N.Matsumi, T. Mizumo, and H. Ohno, Chem. Lett., 2004, 33, 372-373.
Link
216 Ionic conductivity of polymer gels deriving from alkali metal ionic liquids and negatively charged polyelectrolytes, W. Ogihara, J. Sun, M. Forsyth, D. R. MacFarlane, M. Yoshizawa, and H. Ohno, Electrochim. Acta, 2004, 49, 1797-1801.
Link
215 One-dimensional ion transport in self-organized columnar ionic liquids, M. Yoshio, T. Mukai, H. Ohno and T. Kato, J. Amer. Chem. Soc., 2004, 126, 994-995.
Link
215
214 Highly ion conductive flexible films composed of network polymers based on polymerizable ionic liquids, S. Washiro, M. Yoshizawa, H. Nakajima, and H. Ohno, Polymer, 2004, 45, 1577-1582.
Link
213 Design of ionic liquids for electrochemical applications, M. Yoshizawa, A. Narita, and H. Ohno, Aust. J. Chem., 2004, 57, 139-144.
Link
212 Molten lithium sulfonimide salt having poly(propylene oxide) tail, T. Mizumo and H. Ohno, Polymer, 2004, 45, 861-865.
Link
2003
211 Nanostructured ion-conductive films丗 Layered assembly of a side-chain liquid-crystalline polymer with an imidazolium ionic moiety, K. Hoshino, M. Yoshio, T. Mukai, K. Kishimoto, H. Ohno, and T. Kato, J. Polym. Sci. Part A: Polym. Chem., 2003, 41, 3486-3492.
Link
211
210 Coupling to Lysine-13 promotes electron tunneling through carboxylate-terminated alkanethiol self assembled monolayers to cytochrome c, K. Niki, W.R. Hardy, M.G. Hill, H. Li, J.R. Spinkle, E. Margoliash, K. Fujita, R. Tanimura, N. Nakamura, H. Ohno, J. H. Richards, and H.B. Gray, J. Phys. Chem., B, 2003, 107, 9947-9949.
Link
209 All-solid actuator consisting of polyaniline film and solid polymer electrolyte, H. Yan, K. Tomizawa, H. Ohno, and N. Toshima, Macromol. Mater. Eng., 2003, 288, 578-584.
Link
209
208 Ion conductive characteristics of boron stabilized carbanion derived from organoboron 兾-conjugated systems, N. Matsumi, M. Nakashiba, and H. Ohno, Polym. Bull., 2003, 50, 259-264.
Link
207 Depolymerization and ionic conductivity of enzymatically deproteinized natural rubber having epoxy group, W. Klinklai, S. Kawahara, T. Mizumo, M. Yoshizawa, J. T. Sakdapipanich, Y. Isono, and H. Ohno, Eur. Polym. J., 2003, 39, 1707-1712.
Link
206 Redox reaction of PEO-modified cytochrome c adsorbed on the electrode in ion conductive PEO matrix analyzed with non-contact optical waveguide spectroscopy, K. Fujita and H. Ohno, Polym. Adv. Technol., 2003, 14, 486-491.
Link
205 A new type of polymer gel electrolyte: Zwitterionic liquid/polar polymer mixture, H. Ohno, M. Yoshizawa, and W. Ogihara, Electrochim. Acta, 2003, 48, 2079-83.
Link
204 Electron transfer process of poly(ethylene oxide) modified cytochrome c in imidazolium type ionic liquid, H. Ohno, C.Suzuki, K. Fukumoto, M. Yoshizawa, and K. Fujita, Chem. Lett., 2003, 32, 450-451.
Link
203 Ion conductive characteristics of alkylborane type and boric ester type polymer electrolytes derived from mesitylborane, N. Matsumi, K. Sugai, and H. Ohno, Macromolecules, 2003, 36, 2321-2326.
Link
202 Nanostructured anisotropic ion-conductive films, K. Kishimoto, M. Yoshio, T. Mukai, M. Yoshizawa, H. Ohno, and T. Kato, J. Am. Chem. Soc., 2003, 125, 3196-3197.
Link
202
201 Functionalization of gold electrode surface with heterobifunctional poly(ethylene oxide)s having both mercapto and aldehyde groups, F. Kurusu, H. Ohno, M. Kaneko, Y. Nagasaki, and K. Kataoka, Polym. Adv. Technol., 2003, 14, 27-34.
Link
200 Non-contact spectral analysis of cytochrome c on carbon electrodes with optical waveguide spectroscopy, K. Fujita, C. Suzuki, and H. Ohno, Electrochem. Commun., 2003, 5, 47-50.
Link
2002
199 Ion conductive mechanism in liquid crystalline molecules having polyether segment, M. Yoshizawa, T. Mukai, T. Ohtake. K. Kanie, T. Kato, and H. Ohno, Solid State Ionics, 2002, 154-155, 779-787.
Link
198 Ion conductive characteristics of ionic liquids prepared by neutralization of alkylimidazoles, H. Ohno and M. Yoshizawa, Solid State Ionics, 2002, 154-155, 303-309.
Link
197 Active carboxylic acid-terminated alkanethiol self-assembled monolayers on gold bead electrodes for immobilization of cytochromes c, R. Tanimura, M.G. Hill, E. Margoliash, K. Niki, H. Ohno, and H. B. Gray, Electrochem. Solid State Lett., 2002, 5, E67-E70.
Link
196 Ion-conductive liquid crystals: Formation of stable smectic semi-bilayers by the introduction of perfluoroalkyl moieties, K. Hoshino, K. Kanie, T. Ohtake, T. Mukai, M. Yoshizawa, S. Ujiie, H. Ohno, and T. Kato, Macromol. Chem. Phys., 2002, 203, 1547-1555.
Link
196
195 Novel alkali metal ionic liquids: N-ethylimidazolium alkali metal sulfates, W. Ogihara, M. Yoshizawa, and H. Ohno, Chem. Lett., 2002, 31, 880-881.
Link
194 Selective ion transport in organoboron polymer electrolytes bearing a mesitylboron unit, N. Matsumi, K. Sugai, and H. Ohno, Macromolecules, 2002, 35, 5731-5733.
Link
193 Novel polymer electrolytes prepared by copolymerization of ionic liquid monomers, M. Yoshizawa, W. Ogihara, and H. Ohno, Polym. Adv. Technol., 2002, 13, 589-594.
Link
192 Design of successive ion conduction paths in DNA films with ionic liquids, N. Nishimura and H. Ohno, J. Materials Chem., 2002, 12, 2299-2304.
Link
192
191 Triple ion-type imidazolium salts: A new class of single-ion conductive matrix, M. Yoshizawa and H. Ohno, Ionics, 2002, 8, 267-271.
Link
190 Electron transfer reaction of cytochrome c at the electrode surface analyzed with noncontact optical waveguide spectroscopy, K. Fukuda and H. Ohno, Electroanalysis, 2002, 14, 605-610.
Link
189 Liquid-crystalline assemblies containing ionic liquids: An approach to anisotropic ionic materials, M. Yoshio, T. Mukai, K. Kanie, M. Yoshizawa, H. Ohno, and T. Kato, Chem. Lett., 2002, 31, 320-321.
Link
188 Layered ionic liquids: Anisotropic ion conduction in new self-organized liquid-crystalline materials, M. Yoshio, T. Mukai, K. Kanie, M. Yoshizawa, H. Ohno, and T. Kato, Advanced Materials, 2002, 14, 351-354.
Link
187 Optical waveguide spectrometry of acridine orange in monolayer and Langmuir-Blodgett film, H. Ohno, S. Yoneyama, F. Nakamura, K. Fukuda, M. Hara, and M. Shimomura, Langmuir, 2002, 18, 1661-1665.
Link
2001
186 Electron-transfer reaction of polyethylene oxide-modified pseudoazurin at gold electrodes modified with carboxylic acid-terminated alkanethiols, N. Nakamura, M. Aoki, Y. Morikawa, H. Ohno, K. Yamaguchi, and S. Suzuki, Electrochemistry, 2001, 69, 959-961.
ISSN: 13443542
NII Article ID: 10007489799
Link
185 Self-organized ion-conductive liquid crystals: Litium salt complexes of mesogenic dimer molecules exhibiting smectic A phases, T. Ohtake, K. Kanie, M. Yoshizawa, T. Mukai, K. I-Akita, H. Ohno, and T. Kato, Mol. Cryst. Liq. Cryst., 2001, 364, 589-596.
Link
184 Intramolecular electron conduction along DNA strands and their temperature dependency in a DNA-aligned cast film, H. Nakayama, H. Ohno and Y. Okahata, Chem. Commun., 2001, 2300-2301.
Link
183 Ion conductive characteristics of DNA film containing ionic liquids, H. Ohno and N. Nishimura, J. Electrochemical Soc., 2001, 148, E168-E170.
Link
182 Design of new ionic liquids by neutralization of imidazole derivatives with imide-type acids, M. Yoshizawa, W. Ogihara, and H. Ohno, Electrochem. and Solid State Lett, 2001, 4, E25-E27.
Link
181 Thermal stability and electron transfer reaction of modified myoglobin immobilized on a carbon electrode in PEO oligomers, A. Sato, T. Matsuo, N. Y. Kawahara, N. Nakamura, and H. Ohno, Electrochimica Acta, 2001, 46, 1729-1735.
Link
180 Synthesis of molten salt-type polymer brush and effect of brush structure on the ionic conductivity, M. Yoshizawa and H. Ohno, Electrochimica Acta, 2001, 46, 1723-1728.
Link
179 Electron transfer reaction of poly(ethylene oxide)-modified azurin in poly(ethylene oxide) oligomers, N. Nakamura, Y. Nakamura, R. Tanimura, N.Y. Kawahara, H. Ohno, Deligeer, and S. Suzuki, Electrochimica Acta, 2001, 46, 1605-1608.
Link
178 Molten salt type polymer electrolytes, H. Ohno, Electrochimica Acta, 2001, 46, 1407-1411.
Link
177 Ion conduction in zwitterionic-type molten salts and their polymers, M. Yoshizawa, M. Hirao, K. I-Akita, and H. Ohno, J. Mater. Chem., 2001, 11, 1057-1062.
Link
177
2000
176 Liquid-crystalline ion-conductive materials: Self-organization behavior and ion-transporting properties of mesogenic dimers containing oxyethylene moieties complexed with metal salts, T. Ohtake, Y. Takamitsu, K. I-Akita, K. Kanie, N. Nishina, M. Yoshizawa, T. Mukai, H. Ohno, and T. Kato, Macromolecules, 2000, 33, 8109-8111.
Link
175 Preparation of novel room-temperature molten salts by neutralization of amines, M. Hirao, H. Sugimoto, and H. Ohno, J. Electrochemical Soc., 2000, 147, 4168-4172.
Link
174 Polymerization of molten salt monomers having a phenylimidazolium group, M. Hirao, K. I-Akita, and H. Ohno, Polym. Adv. Technol., 2000, 11, 534-538.
Link
173 Measurement of anisotropic ion conduction in liquid crystalline states having polyether segment, K. I-Akita, N. Nishina, Y. Asai, H. Ohno, T. Ohtaki, Y. Takamitsu, and T. Kato, Polym. Adv. Technol., 2000, 11, 529-533.
Link
172 Ionic conductivity of PPO-sulfonamide salt hybrids and their network polymers, Y. Tominaga, T. Mizumo, and H. Ohno, Polym. Adv. Technol., 2000, 11, 524-528.
Link
171 Preparation and characteristics of natural rubber/poly(ethylene oxide) salt hybrid mixtures as novel polymer electrolytes, M. Yoshizawa, E. Marwanta, and H. Ohno, Polymer, 2000, 41, 9049-9053.
Link
170 Lithium ion conduction in linear- and network-type polymers of PEO/sulfonamide salt hybrid, Y. Tominaga and H. Ohno, Electrochimica Acta, 2000, 45, 3081-3086.
Link
169 Ion conductive and flexible DNA films, H. Ohno and N. Takizawa, Chem. Lett., 2000, 29, 642-643.
Link
168 Liquid-crystalline complexes of mesogenic dimers containing oxyethylene moieties with LiCF3SO3: Self-organized ion conductive materials, T. Ohtake, M. Ogasawara, K.I-Akita, N. Nishina, S. Ujiie, H. Ohno, and T. Kato, Chem. Materials, 2000, 12, 782-789.
Link
167 Long-term stability of conformation and redox response of cross-linked cytochrome c in polymer solvent, F. Kurusu and H. Ohno, Electrochim. Acta., 2000, 45, 2911-2915.
Link
166 Preparation and ionic conductivity of poly(ethylene oxide) oligomers having thiolate groups on the chain ends, K. Kato, K. Ito, and H. Ohno, J. Solid State Electrochemistry, 2000, 4, 141-145.
Link
165 Non-contact measurement of adsorbed cytochrome c with optical waveguide spectrometry; The effect of distance between waveguide and protein on the spectral sensitivity, H. Ohno, K. Fukuda, and F. Kurusu, Chem. Lett., 2000, 29, 76-77.
Link
164 Evidence of interaction between anion and polyether in the bulk, M. Yoshizawa, K. I. Akita, and H. Ohno, Electrochim. Acta, 2000, 45, 1617-1621.
Link
163 Correlation between ionic and dipolar motions in a single-ion conducting polymer P[MEO9-MAM], T. Furukawa, K. Yoneya, Y. Takahashi, K. Ito, and H. Ohno, Electrochim. Acta, 2000, 45, 1443-1448.
Link
162 Enhanced ion conduction in imidazolium-type molten salts, K. Ito, N. Nishina, and H. Ohno, Electrochim. Acta, 2000, 45, 1295-1298.
Link
161 Preparation and polymerization of new organic molten salts; N-alkylimidazolium salt derivatives, M. Hirao, K. Ito, and H. Ohno, Electrochim. Acta, 2000, 45, 1291-1294.
Link
160 Effect of added salt species on the ionic conductivity for PEO/sulfonamide salt hybrids, Y. Tominaga, N. Takizawa, and H. Ohno, Electrochim. Acta, 2000, 45, 1285-1289.
Link
1999
159 Liquid-crystalline complexes of a lithium salt with twin oligomers containing oxyethylene spapcers. An approach to anisotropic ion conduction, T. Ohtake, K. Ito, N. Nishina, H. Kihara, H. Ohno, and T. Kato, Polymer J., 1999, 31, 1155-1158.
Link
158 Enhanced electron transfer reaction of myoglobin in PEO by DNA/bisbenzimide complex, H. Ohno and Y. Nakai, Polymer J., 1999, 31, 1145-1148.
Link
157 High ionic conductivity of PEO/sulfonamide salt hybrids, Y. Tominaga and H. Ohno, Solid State Ionics, 1999, 124, 323-329.
Link
156 Molecular brush having molten salt domain for fast ion conduction, M. Yoshizawa and H. Ohno, Chem. Lett, 1999, 28, 889-890.
Link
1998
155 Control of fluorescence emission color and intensity by electrochemical redox reaction of complexed europium ions in PEO, M. Mukaigawa and H. Ohno, Solid State Ionics, 1998, 113-115, 439-442.
Link
154 Ion conduction in molten salts prepared by terminal-charged PEO derivatives, Y. Nakai, K. Ito, and H. Ohno, Solid State Ionics, 1998, 113-115, 199-204.
Link
153 Electrochemical response of glutaraldehyde-cross-linked cytochrome c in PEO oligomers, F. Kurusu and H. Ohno, Solid State Ionics, 1998, 113-115, 173-177.
Link
152 Electron transfer reaction of myoglobin containing DNA-modified hemin in PEO oligomers, K. Muneyasu, N.Y. Kawahara, and H. Ohno, Solid State Ionics, 1998, 113-115, 167-171.
Link
151 Stability of poly(ethylene oxide)-modified myoglobin in ion conductive polymers at high temperatures, N.Y. Kawahara and H. Ohno, Solid State Ionics, 1998, 113-115, 161-166.
Link
150 Electrochemical switching of fluorescence emission between red and blue from complexed europium ions in poly(ethylene oxide), M. Mukaigawa and H. Ohno, J. Electroanal. Chem., 1998, 452, 141-149.
Link
149 Improved ionic conductivity of PEO/sulfonamide lithium salt hybrid by the addition of LiTFSI, Y. Tominaga and H. Ohno, Chem. Lett., 1998, 27, 955-956.
Link
148 Room-temperature molten salt polymers as a matrix for fast ion conduction, H. Ohno and K. Ito, Chem. Lett., 1998, 27, 751-752.
Link
147 Electron transfer reaction of heme-proteins in ion conductive polymer matrix, H. Ohno, Electrochim. Acta, 1998, 43, 1581-1587.
Link
146 Thermal stability and electron transfer reaction of PEO-modified hemoglobin cast on ITO electrode in polymer electrolytes, N.Y. Kawahara and H. Ohno, Electrochim. Acta, 1998, 43, 1493-1497.
Link
145 Design of highly ion conductive polyether/salt hybrids, K. Ito and H. Ohno, Electrochim. Acta, 1998, 43, 1247-1252.
Link
144 Electron transfer reaction of cytochrome c at poly(ethylene oxide)-thiolate-modified gold electrode, H. Ohno and K. Kato, Chem. Lett., 1998, 27, 407-408.
Link
143 Ionic conductivity of molten salts formed by polyether/salt hybrids, H. Ohno, Y. Nakai, and K. Ito, Chem. Lett., 1998, 27, 15-16.
Link
1997
142 Crystal structure of neodymium(III)-diethylene glycol complex, H.Naruke, T. Yamase, and H. Ohno, J. Alloy. Comp., 1997, 261, 140-144.
Link
141 Induced thermostability of poly(ethylene oxide)-modified hemoglobin in glycols, N.Y. Kawahara, and H. Ohno, Bioconjugate Chem., 1997, 8, 643-648.
Link
140 High lithium ionic conductivity of poly(ethylene oxide)s having sulfonate groups on their chain ends, K. Ito, N. Nishina, and H. Ohno, J. Materials Chem., 1997, 7, 1357-1362.
Link
139 Polyether/salt hybrid: 6. Effect of sulfonamide ends having different alkyl groups on the bulk ionic conductivity, Y. Tominaga, K. Ito, and H. Ohno, Polymer, 1997, 38, 1949-1951.
Link
138 Effect of cast solvent on the electron transfer reaction for poly(ethylene oxide)-modified myoglobin on the electrode in poly(ethylene oxide) oligomers, N.Y. Kawahara, W. Ohkubo, and H. Ohno, Bioconjugate Chem., 1997, 8, 244-248.
Link
137 Conformation and redox reaction of poly(ethylene oxide)-modified horseradish peroxidase in poly(ethylene oxide) oligomers, N.Y. Kawahara, K. Muneyasu, and H. Ohno, Chem. Lett., 1997, 26, 381-382.
Link
136 Polyether/salt hybrid (IV). Effect of benzenesulfonate group(s) and PEO molecular weight on the bulk ionic conductivity, K. Ito, Y. Tominaga, and H. Ohno, Electrochim. Acta, 1997, 42, 1561-1570.
Link
135 Complexation and crystallization of rare earth salts in DEG and TEG, H. Ohno, Y. Saito, and T. Yamase, Chem. Lett., 1997, 26, 213-214.
Link
134 Polyether/salt hybrid: 5. Phase and bulk electrochemical response of viologens having poly(ethylene oxide) chain, K. Ito and H. Ohno, Polymer, 1997, 38, 921-926.
Link
1996
133 Electron transfer of PEO-modified cytochrome c in PEO oligomers, F. Kurusu, N.Y. Kawahara, and H. Ohno, Solid State Ionics, 1996, 86-88, 337-340.
Link
132 Electrochemical redox reaction of hemin derivatives having thienylene groups in ion conductive PEO oligomers, H. Ohtaki, N.Y. Kawahara, and H. Ohno, Solid State Ionics, 1996, 86-88, 333-336.
Link
131 Evaluation of Ag/Ag+ electrode as a reference electrode for ion conductive polymer matrix, F. Sato and H. Ohno, Solid State Ionics, 1996, 86-88, 329-332.
Link
130 Effect of terminal groups on the ionic conductivity of 兛,冎-dicharged poly(ethylene oxide) oligomers, K. Ito, N. Nishina, Y. Tominaga, and H. Ohno, Solid State Ionics, 1996, 86-88, 325-328.
Link
129 Halochromism of N-phenoxide betaine-dye in salt containing poly(ethylene oxide) oligomers, H. Ohno and H. Kawanabe, Polym. Adv. Technol., 1996, 7, 754-758.
Link
128 Cytochrome c cross-linked with glutaraldehyde (1); Electrochemical response in poly(ethylene oxide) oligomers, H. Ohno and F. Kurusu, Chem. Lett., 1996, 25, 693-694.
Link
127 Recent advancement of ion-conductive polymers, H. Ohno and K. Ito, Macromolecular Symposia, 1996, 105, 199-204.
1995
126 Electrochemical switching of fluorescence from europium ions dissolved in poly(ethylene oxide) oligomers, H. Ohno and H. Yoshihara, Solid State Ionics, 1995, 80, 251-259.
Link
125 Salt exchange reaction via competitive solvation by poly(ethylene oxide) oligomers, K. Ito and H. Ohno, Electrochim. Acta, 1995, 40, 2365-2368.
Link
124 Ionic conductivity of poly(ethylene oxide) having charges on the chain end, K. Ito and H. Ohno, Solid State Ionics, 1995, 79, 300-305.
Link
123 Crystallization of carboxylic acid salts in poly(ethylene oxide) oligomers at higher temperatures, H. Ohno, H. Kawanabe, and K. Ito, Polym. Adv. Technol., 1995, 6, 248-253.
Link
122 Poly(ethylene oxide)s having carboxylate groups on the chain end, H. Ohno and K. Ito, Polymer, 1995, 36, 891-893.
Link
121 Electron transfer of heme proteins on the ITO electrode in polymer solvents, H. Ohno and N.Y. Kawahara, Polym. Adv. Technol., 1995, 6, 185-189.
Link
1994
120 Conduction of alkali metal cations in poly(diaza-crown ether)s having hydroxyethyl side arms, H. Ohno, Y. Inoue, and H. Tsukube, Polymer, 1994, 35, 5753-5757.
Link
119 A study on diffusional behavior of propyl viologen in poly(ethylene oxide) polymer solvents based on a combined use of steady-state cyclic voltammetry and potential-step chronoamperometry, H. Satoh, H. Ohno, K. Tokuda, and T. Ohsaka, Electrochim. Acta, 1994, 39, 2261-2270.
Link
118 Redox reaction of poly(ethylene oxide)-modified hemoglobin in poly(ethylene oxide) oligomers at 120 degrees C., H. Ohno and N. Yamaguchi, Bioconjugate Chem., 1994, 5, 379-381.
Link
117 Conformation and electrochemical reduction of myoglobin in PEO oligomers, H. Ohno, W. Ohkubo, and N. Yamaguchi, Polym. Adv. Technol., 1994, 5, 411-415.
Link
116 Polymer solvents for electrochemical reactions, H. Ohno, J. Macromol. Sci., Part A Pure Appl. Chem, 1994, 31, 1881-1891.
Link
115 Decreased solubility of alkali metal salts by heating in poly(ethylene oxide) oligomers, H. Ohno, K. Ito, and H. Ikeda, Solid State Ionics, 1994, 68, 227-232.
Link
114 Effect of salt species on the electrochemical p-doping of poly(pyrrole) films in poly(ethylene oxide) oligomers, H. Ohno, H. Yoshida, and Y. Ohtsuka, Solid State Ionics, 1994, 68, 125-131.
Link
113 Crystallization of inorganic salts in poly(propylene oxide) oligomers by heating, K. Ito, M. Dodo, and H. Ohno, Solid State Ionics, 1994, 68, 117-123.
Link
112 Electron transfer reaction of poly(ethylene oxide)-modified myoglobin coated on an ITO electrode in poly(ethylene oxide) oligomers, H. Ohno and T. Tsukuda, J. Electroanal. Chem., 1994, 367, 189-194.
Link
111 Redox reactions of proteins in polymer electrolytes, H. Ohno, J. Macromol. Sci., Part A Pure Appl. Chem, 1994, 31, 83-95.
Link
1993
110 Solubility, diffusion coefficient and ionic conductivity of alkyl viologens in poly(ethylene oxide) and its derivatives, H. Ohno and H. Satoh, J. Electroanal. Chem., 1993, 360, 27-37.
Link
109 Relation between unusual solubility of salts in poly(ethylene oxide) oligomers and complex formation, H. Ohno and K. Ito, Polymer, 1993, 34, 4171-4172.
Link
108 Preparation and ionic conductivity of poly(oligo(oxypropylene) methacrylate), H. Ohno and K. Ito, Polymer, 1993, 34, 3276-3280.
Link
107 Temperature-controlled ionic conductivity switching in poly[oligo(oxyethylene) methacrylate]/ poly (ethylene oxide) layered film, H. Ohno, Y. Inoue, and P. Wang, Solid State Ionics, 1993, 62, 257-264.
Link
106 Selective conduction of alkali metal ions in poly(diaza-crown ether), H. Ohno, H. Yamazaki, and H. Tsukube, Polymer, 1993, 34, 1533-1534.
Link
105 Japanese!
Fluorescence study on the complex formation of TbCl_3 and 2,6-pyridine dicarboxylic acid in poly(ethylene oxide) oligomers, H. Ohno and K. Matsuda, Journal of the Chemical Society of Japan, 1993, 433-438.
ISSN: 03694577
NII Article ID: 10006665271
104 Preparation and characteristics of all solid-state electrochromic display with cation-conductive polymer electrolytes, H. Ohno and H. Yamazaki, Solid State Ionics, 1993, 59, 217-222.
Link
103 Japanese!
Negative temperature dependence of the solubility of potassium chloride in poly(ethylene oxide), H. Ohno, K. Ito, and K. Matsumoto, Journal of the Chemical Society of Japan, 1993, 301-303.
ISSN丗03694577
NII Article ID: 10006664887
102 Electron transfer reaction of polyethylene oxide-modified hemoglobin on the ITO electrode in solid polymer electrolytes, H. Ohno, N. Yamaguchi, and M. Watanabe, Polym. Adv. Technol., 1993, 4, 133-138.
Link
101 Effect of supporting electrolytes on the redox response of poly(xylyl viologen) and its polymer complex with poly(styrene sulfonate) in poly(ethylene oxide) oligomers, H. Ohno and K. Ishikura, Polym. Adv. Technol., 1993, 4, 114-118.
Link
1992
100 Electron transfer reaction of polyethylene oxide-modified myoglobin in polyethylene oxide oligomers, H. Ohno and T. Tsukuda, J. Electroanal. Chem., 1992, 341, 137-149.
Link
98 Applications of polymer electrolytes: Electrochromics, sensors and biology, H. Ohno, Electrochim. Acta, 1992, 37, 1649-1651.
Link
97 Japanese!
Solubility of inorganic salts in polyethylene oxide and effects of molecular weight of polyethylene oxide and salt species on the ionic donductivity (II), H. Ohno and W. Pu, Journal of the Chemical Society of Japan, 1992, 552-557.
ISSN: 03694577
NII Article ID: 10006661383
96 Japanese!
Preparation and size control of starch microgels by the heat treatment of their coacervates, H. Ohno and M. Higano, Journal of the Chemical Society of Japan, 1992, 124-126.
ISSN: 03694577
NII Article ID: 10006660249
1991
95 Polyelectrolyte-like behavior of polyethylene oxide/LiClO4 mixture in chloroform or chloroform/dimethylformamide mixed solvent, H. Ohno, Y. Ito, and N. Yamaguchi, Polym. Adv. Technol., 1991, 2, 213-217.
Link
94 Simple coacervate of pullulan formed by the addition of poly(ethylene oxide) in an aqueous solution, H. Ohno and M. Higano, Polymer, 1991, 32, 3062-3066.
Link
93 Japanese!
億儕僄僠儗儞僆僉僔僪拞偺奺庬柍婡墫偺梟夝搙偲僀僆儞揱摫搙偵媦傏偡楢嵔暘巕検偲墫庬偺岠壥, 戝栰 峅岾, 墹 圜, Journal of the Chemical Society of Japan, 1991, 1588-1593.
ISSN: 03694577
NII Article ID: 40002846331
92 Electrochemical behaviour of hemin and PEO-hemin in ion-conductive polymer matrices, G. Shi and H. Ohno, J. Electroanal. Chem., 1991, 314, 59-69.
Link
91 Fluorescence characteristics of europium ions stabilized in solid polymer electrolytes containing polyether structure, H. Ohno and S.P. Lau, Polym. Adv. Technol., 1991, 2, 103-107.
Link
90 Copolymerization of methacrylic acid alkali metal salts and polyether-containing monomers in solid polymer electrolytes, H. Ohno and K. Ito, Polym. Adv. Technol., 1991, 2, 97-101.
Link
1990
88 Solubility of methacrylic acid alkali metal salts in polyethylene oxide and cation conductivity after polymerization, H. Ohno and Y. Ito, Polym. Adv. Technol., 1990, 1, 335-339.
Link

Publications & Books