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  1. Suzuko Yamazaki, Keisuke Kozasa, Kohshiro Okimura and Kensuke Honda, RSC Adv., 2020, 10, 41393-41402 “Visible light responsive TiO2 photocatalysts for degradation of indoor acetaldehyde”
  2. Kensuke HONDA and Ryutaro KOBAYASHI, Electrochemistry, 88(5), 397–406 (2020) “Fabrication of C-rich a-SiC Semiconductor Nanoparticles Having Variable Optical Gaps and Particle Sizes Using High-density Plasma in Localized Area”
  3. Kensuke Honda, Yuta Waki, Akari Matsumoto, Bunta Kondo, Yohsuke Shimai, Diamond & Related Materials 107 (2020) 107900, “Amorphous carbon having higher catalytic activity toward oxygen reduction reaction: Quinone and carboxy groups introduced onto its surface”
  4. Keigo Okafuji, Ryutaro Kobayashi, Shinpei Ohtomo, Hiroshi Naragino, and Kensuke Honda, ECS Transactions, Vol. 75 (No. 50), 57-74 (2017), "Fabrication of Optical Gap Selective Amorphous Carbon Photocatalyst for Hydrogen Production Under Irradiation with Visible Light”
  5. Hiroshi Naragino, Yoshiya Nagata, Keigo Okafuji, Shinpei Ohtomo, Yuta Shimizu, and Kensuke Honda, ECS transactions, Vol. 75 (No. 13), 153-159 (2016), “Development of Silicon and Carbon Based p-Type Amorphous Semiconductor Films with Optical Gap Variable for High-efficiency Multi-junction Solar Cells”.
  6. Ryutaro Kobayashi, Yoshiya Nagata, Keigo Okafuji, Shinpei Ohtomo,Hiroshi Naragino and Kensuke Honda, ECS transactions, Vol. 75 (No. 13), 139-152 (2016), “Fabrication of a-C semiconductor nanoparticles for quantum dots surface emitting laser using high-density plasma in localized area”.
  7. Shinpei Ohtomo, Hiroshi Naragino, Keigo Okafuji, Ryutaro Kobayashi, Kensuke Honda, ECS transactions, Vol. 75 (No. 17), 217-228 (2016), “Development of high-sensitive detection system for redox analytes having a standard potential higher than O2 evolution by using micropatterned conductive boron-doped DLC electrodes”.
  8. Kensuke Honda, Yohsuke Shimai, Yuta Waki, Keigo Okafuji, Shinpei Ohtomo, Ryutaro Kobayashi, Hiroshi Naragino, ECS transactions, Vol. 75 (No. 14), 1021-1028 (2016), “Nitrogen-Incorporated Amorphous Carbon Catalysts with Higher Reactivity Toward Oxygen Reduction Reaction”.
  9. Kensuke Honda, Kohsuke Yoshinaga and Yoshiya Nagata, ECS J. Solid State Sci. Technol., 5, pp. 590-597 (2016). doi: 10.1149/2.0131610jss "Amorphous Carbon-Based Semiconductor Capable of Controlling Its Optical Gap and Conductivity by Incorporating Silicon and Nitrogen Atoms"
  10. Kenta Adachi, Shoko Toyomura, Yuko Miyakuni, Suzuko Yamazaki, Kensuke Honda, Tomoyuki Hirano, Polymers advanced technologies, 26, pp. 597-605 (2015). DOI: 10.1002/pat.3491 "Dioxomolybdenum(VI) and dioxotungsten(VI) complexes: efficient catalytic activity for crosslinking reaction in ethylene-vinyl acetate copolymer/alkoxysilane composites"
  11. Kensuke Honda, Hiroshi Naragino, and Yohsuke Shimai, J. Electrochem. Soc., volume 161, issue 10, B207-B215 (2014). doi: 10.1149/2.0261410jes, "Control of electric conductivity and electrochemical activity of hydrogenated amorphous carbon by incorporating boron atoms”
  12. Kensuke HONDA, Kohsuke YOSHINAGA, Akira NAKAHARA, ECS transactions, Vol. 58 (No. 11), 79-87 (2013), “Development of amorphous carbon-based variable optical gap semiconductor materials”.
  13. Kohsuke Yoshinaga, Hiroshi Naragino, Akira Nakahara, and Kensuke Honda, Journal of Physics Conference series, 441 (2013) 012040. doi:10.1088/1742-6596/441/1/012040, “Fabrication of Silicon and Carbon based Wide-Gap Semiconductor Thin Films for High Conversion Efficiency”
  14. Hiroshi Naragino, Kohsuke Yoshinaga, Akira Nakahara, Sakuya Tanaka, Kensuke Honda, Journal of Physics Conference series, 441 (2013) 012042, doi:10.1088/1742-6596/441/1/012042, “Enhancement of electrical conductivity and electrochemical activity of hydrogenated amorphous carbon by incorporating boron atoms”
  15. Kensuke Honda, Akira Nakahara, Hiroshi Naragino, Kohsuke Yoshinaga, ECS Electrochemistry Letters, Vol. 2 (6) B9-B11 (2013). DOI: 10.1149/2.007306eel “High Sensitive Amperometric Detection of Glucose using Conductive DLC Electrode in Higher Potential Region”.
  16. Kensuke Honda, Akira Nakahara, Hiroshi Naragino, Kohsuke Yoshinaga, Sakuya Tanaka, ECS transactions, Vol. 50 (12), 377-383, (2012). “High Sensitive Amperometric Detection of Glucose using Conductive DLC Electrode in Higher Potential Region”.
  17. Hiroshi Naragino, Kohsuke Yoshinaga, Seiji Tatsuta, Kensuke Honda, ECS transactions, 41 (20), 59-68 (2012). “Improvement of Conductivity by incorporation of Boron atoms in Hydrogenated Amorphous Carbon Films fabricated by Plasma CVD methods and its Electrochemical Properties”.
  18. Suzuko Yamazaki, Yuhei Fujiwara, Shinya Yabuno, Kenta Adachi, Kensuke Honda, Applied Catalysis B: Environmental, Vol. 121-122 (2012) pp.148-153. doi:10.1016/j. apcatb.2012.03.026 “Synthesis of porous platinum-ion-doped titanium dioxide and the photocatalytic degradation of 4-chlorophenol under visible light irradiation”.
  19. Tomohisa HAYASHI, Ikuo SAKURADA, Kensuke HONDA, Shigeyasu MOTOHASHI and Kazuo UCHIKURA, Analytical Sciences, Vol. 28 (2012) No. 2 pp.127-133. doi:10.2116/analsci.28.127 “Electrochemical Detection of Sugar-related Compounds Using Boron-doped Diamond Electrodes”.
  20. Kenta Adachi, Tomohiro Mita, Shohei Tanaka, Kensuke Honda, Suzuko Yamazaki, Masaharu Nakayama, Takeyosi Goto, Hiroshi Watarai, RSC Advances, 2, 2128-2136, (2012). DOI: 10.1039/C2RA00217E “Kinetic characteristics of enhanced photochromism in tungsten oxide nanocolloid adsorbed on cellulose substrates, studied by total internal reflection Raman Spectroscopy”.
  21. Yoriko Tanaka, Hiroshi Naragino, Kohsuke Yoshinaga, Akira Nakahara, Takeshi Kondo, Akira Fujishima, Kensuke Honda, International Journal of Electrochemistry, Vol. 2012, Article ID 369130, 14 pages, (2012). doi:10.1155/2012/369130 “Controllable Electrochemical Activities by Oxidative Treatment toward Inner Sphere Redox Systems at N-doped Hydrogenated Amorphous Carbon Films”
  22. Kensuke Honda, Masayoshi Yoshimatsu, Koichi Kuriyama, Ryosuke Kuwabara,a Hiroshi Naragino, Kohsuke Yoshinaga, Takeshi Kondo, Akira Fujishima, Diamond and Related Materials, 20, 1110-1120, (2011) doi:10.1016/j.diamond.2011.06.017 "Electrically-Switchable, Permselective Membranes Prepared from Nano-structured N-doped DLC"
  23. Kenta Adachi, Kensuke Honda, Suzuko Yamazaki, Tomoyuki Hirano, Hiroshi Kurokawa, Akinobu Wakabayashi, Paul H. Kasai, Katsuhiko Nakamae, Hitoshi Iwabuki, Koji Murakami, Polymer Engineering and Science, 51, pp. 632-640 (2011). DOI: 10.1002/pen.21856 "In Situ Binary Sol-Gel Reaction of Various Trifunctional Alkoxysilane in the Silane-Grafted Polyolefin Matrix and its Effect Upon the Mechanical Properties"
  24. Y. Tanaka, M. Furuta, K. Kuriyama, R. Kuwabara, Y. Katsuki, T. Kondo, A. Fujishima and K. Honda, Electrochimica Acta, 56 (3), pp. 1172-1181 (2011). DOI: 10.1016/j.electacta.2010.11.006 "Electrochemical Properties of N-doped Hydrogenated Amorphous Carbon Films Fabricated by Plasma-enhanced Chemical Vapor Deposition Methods"
  25. Takeshi Kondo, Sangchul Lee, Kensuke Honda, Takeshi Kawai, "Conductive Diamond Hollow Fiber Membranes" Electrochemistry Communications, 11, pp. 1688-1691 (2009).
  26. M. Miyamoto, Y. Tanaka, M. Furuta, T. Kondo, A. Fujishima and K. Honda, Electrochimica Acta, 54 (12), pp. 3285-3297 (2009). “Isolation and Dispersion of Reduced Metal Particles using Surface Dipole Moment at F-terminated Diamond Electrode”
  27. Takeshi Kondo, Yu Niwano, Akira Tamura, Junichi Imai, Kensuke Honda, Yasuaki Einaga, Donald A. Tryk, Akira Fujishima and Takeshi Kawai, Electrochimica Acta, 54 (8), pp. 2312-2319 (2008). “Enhanced Electrochemical Response in Oxidative Differential Pulse Voltammetry of Dopamine in the Presence of Ascorbic Acid at Carboxyl-Terminated Boron-Doped Diamond Electrodes”
  28. Yoriko Tanaka, Masahiro Furuta, Hiroaki Matsura, Nobuo Nakano, Akira Fujisima, and Kensuke Honda, ECS transaction., 16 (11), 387-391 (2008). "Development of High-sensitive Gas–sensor for B2H6 using Gas-permeable Conductive DLC Membrane”
  29. Takeshi Kondo, Hikaru Hoshi, Kensuke Honda, Yasuaki Einaga, Akira Fujishima, and Takeshi Kawai, J. Phys. Chem. C, 112 (31), 11887 -11892, (2008), “Photochemical Modification of a Boron-doped Diamond Electrode Surface with Vinylferrocene”
  30. Takeshi Kondo, Shinsuke Aoshima, Kousuke Hirata, Kensuke Honda, Yasuaki Einaga, Akira Fujishima, and Takeshi Kawai, Langmuir, 24 (14), 7545 -7548, (2008), “Crystal-Face-Selective Adsorption of Au Nanoparticles onto Polycrystalline Diamond Surfaces”
  31. Y. Yamanaka, M. Miyamoto, Y. Tanaka, A. Nagumo, Y. Katsuki, Y. Fukuda, M. Yoshimatsu, A. Takeshige, T. Kondo, A. Fujishima, and K. Honda, Electrochimica Acta, 53(13), 5397-5408, (2008) “Development of the direct modification method of the ruthenium complex on conductive diamond surfaces and the selective detection of bio-related materials”
  32. Takeshi Kondo, Hiroyuki Ito, Kazuhide Kusakabe, Kazuhiro Ohkawa, Kensuke Honda, Yasuaki Einaga, Akira Fujishima, Takeshi Kawai, Diamond and Related Materials, 17 (1), 48-54, (2008) “Characterization and electrochemical properties of CF4 plasma-treated boron-doped diamond surfaces”
  33. Takeshi Kondo, Shinsuke Aoshima, Kensuke Honda, Yasuaki Einaga, Akira Fujishima, and Takeshi Kawai, J. Phys. Chem. C, 111 (34), 12650 -12657, (2007), “Fabrication of Covalent SAM/Au Nanoparticle/Boron-Doped Diamond Configurations with a Sequential Self-Assembly Method”
  34. Tribidasari A. Ivandini, Kensuke Honda, Tata. N. Rao, Akira Fujishima, Yasuaki Einaga, Talanta, 71 (2), 648-655 (2007). “Simultaneous detection of purine and pyrimidine at highly boron-doped diamond electrodes by using liquid chromatography”
  35. Y. Yamaguchi, Y. Yamanaka, M. Miyamoto, A. Fujishima, K. Honda, J. Electrochem. Soc., 153 (12), J123-J132 (2006). “Hybrid Electrochemical Treatment for Persistent Metal Complex at Boron-doped Diamond Electrodes and Clarification of its Reaction Route”
  36. K. Honda, Y. Yamaguchi, Y. Yamanaka, M. Yoshimatsu, Y. Fukuda, A. Fujishima, Electrochim. Acta, 51(4), 588-597 (2005). “Hydroxyl Radical-Related Electrogenerated Chemiluminescence Reaction for a Ruthenium Tris(2,2’)bipyridyl/Co-reactants System at Boron-doped Diamond Electrodes”
  37. Charoenraks T, Chuanuwatanakul S, Honda K, Yamaguchi Y, Chailapakul O, ANALYTICAL SCIENCES, 21(3), 241-245, (2005) “Analysis of tetracycline antibiotics using HPLC with pulsed amperometric detection”
  38. T. Kondo, K. Honda, D. A. Tryk, A. Fujishimad, J. Electrochem. Soc., 152 (1): E18-E23 (2005). “Covalent modification of single-crystal diamond electrode surfaces”
  39. K. Honda, T. Noda, M. Yoshimura, K. Nakagawa, A. Fujishima, J. Phys. Chem. B, 108, 16117-16027 (2004). “Micro-Structural Heterogeneity for Electrochemical Activity in Polycrystalline Diamond Thin Films Observed by Electrogenerated Chemiluminescence Imaging”
  40. K. Honda, M. Yoshimura, K. Kawakita, T. N. Rao, A. Fujishima, Y. Sakamoto, K. Yasui, N. Nishio, and H. Masuda, J. Electrochem. Soc., 151 (4), A532-A541 (2004). “Electrochemical Characterization of Carbon Nanotube / Nano-honeycomb Diamond Composite Electrodes for a Hybrid Anode of Li-ion Battery and Super Capacitor”
  41. H. Olivia, B. V. Sarada, K. Honda, A. Fujishima, Electrochim. Acta, 49 (13), 2069-2076 (2004). “Continuous Glucose Monitoring at Enzyme-Immobilized Platinaized Diamond Microfiber Electrodes”
  42. Rika, Sato, Takeshi Kondo, Kenichi Shimizu, Kensuke Honda, Yoshiyuki Shibayama, Keiya Shirahama, Akira. Fujishima, Yasuaki Einaga, Chem. Lett., 32, 974-973 (2003). “Electrochemical Properties of Ar+ Sputtered Polycrystalline Diamond Electrodes with Smoothed Surfaces”
  43. Takeshi Kondo, Kensuke Honda, Donald A. Tryk, Akira Fujishima, Electrochim. Acta, 48, 2739-2748 (2003). “AC Impedance Studies of Anodically Treated Polycrystalline and Homoepitaxial Boron-Doped Diamond Electrodes”
  44. Ouattera L., Duo I., Diaco T., Ivandini A., Honda K., Rao T., Fujishima A., Comninellis C, New Diamond and Frontier Carbon Technology, 13, 97-108, (2003), “Electrochemical oxidation of ethylenediaminetetraacetic acid (EDTA) on BDD electrodes: Application to wastewater treatment”
  45. K. Honda, M. Yoshimura, Tata N. Rao, A. Fujishima, J. Phys. Chem. B, 107, 1653-1663 (2003). “Electrogeneratad Chemiliminescence of the Ruthenium Tris(2,2’)bipyridyl/Amines System on Boron-doped Diamond Electrode”
  46. M. Yoshimura, K. Honda, T. Kondo, T. N. Rao, D. A. Tryk, and A. Fujishima, Electrochim. Acta, 47, 4387-4392 (2002). “Electrochemical Examination of the Ascorbic Acid Radical Anion In Non-Aqueous Electrolytes”
  47. K. Honda, M. Yoshimura, R. Uchikado, T. Kondo, Tata N. Rao, A. Fujishima, M. Watanabe, K. Yasui, and H. Masuda, Electrochim. Acta, 47, 4373-4385 (2002). “Electrochemical Characteristics for Redox Systems at Nano-honeycomb Diamond”
  48. A. Fujishima, C. Terashima, K. Honda, B. V. Sarada, Tata. N. Rao, New Diamond and Frontier Carbon Technology, 12, 73-81 (2002). “Recent Progress in Electroanalytical Applications of Diamond Electrodes”
  49. M. Yoshimura, K. Honda, R. Uchikado, T. Kondo, Y. Einaga, T. N. Rao, D. A. Tryk, and A. Fujishima, Dia. & Rel. Mat., 11, 67-74 (2002). “Factor controlling the electrochemical potential window for diamond electrodes in non-aqueous electrolytes”
  50. K. Honda, M. Yoshimura, T. N. Rao, D. A. Tryk, A. Fujishima, K. Yasui, Y. Sakamoto, K. Nishio and H. Masuda, J. Electroanal. Chem., 514, 35-50 (2001). “Electrochemical Properties of Pt-modified Nano-Honeycomb Diamond Electrodes”
  51. M. Yoshimura, K. Honda, R. Uchikado, T. Kondo, T. N. Rao, D. A. Tryk, A. Fujishima, and H. Masuda, Dia. & Rel. Mat., 10, 620-626 (2001). “Electrochemical characterization of nanoporous honeycomb diamond electrodes in non-aqueous electrolyte.”
  52. K. Honda, T. N. Rao, D. A. Tryk, A. Fujishima, M. Watanabe, K. Yasui, and H. Masuda, J. Electrochem. Soc., 148, A668-A679 (2001). “Impedance Characteristics of the Nanoporous Honeycomb Diamond Electrodes for Electrical Double Layer Capacitor Applications”
  53. K. Honda, T. N. Rao, D. A. Tryk, A. Fujishima, M. Watanabe, K. Yasui, and H. Masuda,J. Electrochem. Soc., 147, 659-664 (2000). “Electrochemical Characterization of the Nanoporous Honeycomb Diamond Electrode as an Electrical Double-Layer Capacitor”