長岡技術科学大学 退官記念祝賀会 野坂芳雄 野坂芳雄 2015年 2015年3月14日 14日(土) 長岡グランドホテル 長岡グランドホテル 御挨拶 退官記念祝賀会に寄せて 私が、新構想大学として開設した直後の長岡技術科学大学に助手として赴任したのは、 1980 年 4 月で、第一期生が修士課程に進学した年に当たります。当時は、研究棟(物 質・材料 経営情報2号棟)はまだ建設中で、学生実験棟で、少しずつ装置を集めて実 験を開始しました。それから既に 35 年の歳月が経とうとしています。当時の学生諸君 は今では企業で活躍し、重鎮になっている人もいます。 大学では学生の年齢はいつも同じなので、年を経ても私の方は自身の年齢を重ねるの をつい忘れがちになります。学生の入学年によって、私に対する印象は大きく変化して いるでしょう。学生にとっては、特に近年では自分の親より高齢の者から指導を受ける ことになりました。私の性格上、学生に対し強く命令し、また激しく叱責したりするこ とが、殆どないので、教員としての指導体制に物足りなさを感じた学生がいたかもしれ ません。 紆余曲折ありましたが、私の教育研究人生の大半を長岡の地で過ごすことになりまし た。この間、光触媒や燃料電池などの新規の研究テーマに積極的に挑んできました。そ れなりの成果をあげることができたのは、学生諸君の協力の賜物と思っています。これ はひとえに工業高等専門学校卒業生を中心とする長岡技術科学大学の学生気質に所以 すると認識しています。現在、工業高等専門学校の改革で、長岡技術科学大学開設当初 の特徴が失われつつあるのは遺憾です。 諸君が長岡で過ごした学生時代を貴重な体験として、今後の人生に活かしていくこと を切に祈念しております。 2015 年 3 月 14 日 野 坂 芳 雄 最終講義 ラジカルとともに歩んだ35年 野坂芳雄 2015.3.13 所属 1968 担当者 所属長 教職員 主要業績 フラッシュ光分解ポーラログラフィ 大学 (電気分析化学研) 平山 鋭 佐藤昌憲 ラジカルの酸化還元電位 化学 第27巻、3号、 315 1972 1974 1978 大学院 (放射線化学研) 赤坂一之 志田忠正 フェナジン poly-A フェナジン AMP 波多野博之 西暦 博士課程 修士卒 学部卒 担当外 学部卒業年 ラジカルのスペクトル Biochem Biophys Res Commun 57 (4), 1125 J. American Chemical Society 100 (3), 706 志田 J. Physical Chemistry 82 (6), 695 2 8 123 MO計算担当 理化学研究所 特別研究生 (放射線化学研) 吉良 爽 今村 昌 長倉三郎(物性研) J.American Chemical Society 102, 1949 (1980) 1 MA + O2- 1980 学生氏名 会沢 守 佐々木 博志 島崎 幸博 1981 池田 幸悦 佐藤 久明 中村 達也 乗松 幸示 小林 高臣 引用数 (MA:無水マレイン酸) 長岡技術科学大学 助手 (反応工学研) 三山 創 教授 1982 五十嵐 隆治 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 河田 正司 木村 昇 杉山 武夫 石塚 豊 桑原 厚司 内田 修司 角田 朋尚 福島 隆史 穂苅 直人 嶋田 弘志 武石 信弘 田中 浩一 山口 克彦 有井 忠 石川 彰 寒川井 伸一 徳田 俊彦 太田 進博 坂詰 直樹 高津 雅子 真名子 裕俊 横山 秀邦 熊谷 一泰 佐藤 孝 神保 真 新居 哲朗 枝沢 克人 小林 公 南雲 律子 福山 稔章 田中 一徳 松井 晋 村山 庄吾 斉藤 仁 重野 晴信 塚田 雅士 通岩 典生 武井 智行 仲岡 泰裕 永井 俊彦 堀内 雅人 王 紅英 池内 智美 加藤 弥 田中 寛 宮本 拓郎 張 士成 肥沼(福井)克周 山下 喜文 河田 啓貴 小松 謙司 福山 博 金属担持光触媒 乗松 Chemical Physics Letters 106 (1), 128 Flash 光音響分光 五十嵐 Analytical Chemistry 57 (1), 92 81 3 (Univ. Texas) Prof. Marye A. Fox 金属担持効果 Hydrogenase 色素レーザー MV+CdS Ber. Bunsen-Ges. Phys. Chem., 90, 1199 河田 Biotechnology Bioengineering 28 (3), 456 24 2 J. Physical Chemistry 90 (24), 6521 40 (MV:メチルビオロゲン) J.Physical Chemistry 92 (7), 1893 CdS;光化学 CdS-超微粒子 山口 Chemistry Letters, 605 N2 レーザー 二次元梯子モデル 太田 J. Physical Chemistry 94 (9), 3752 88 108 助教授(反応工学研) 助教授 藤井信行教授 量子井戸計算 J. Physical Chemistry 95 (13), 5054 83 171 stopped flow Cd/RSH + S 太田 J. Colloid Interface Science 155 (1), 23 池内 77 3次光学非線形 田中 Applied Physics Letters 62 (16), 1863 10 ストロボ式 Cd/RSH + S 池内 J. Physical Chemistry 99 (20), 8317 62 1996 岸本 光生 広沢 達也 茶谷 直 1997 1998 1999 2000 2001 2002 2003 2004 教授(光・電子セラミックス研) Flow ESR 西野純一助手 化学発光検出 (2003年まで) ZnS ESR TiO2 ESR 仲岡 平川 力 仲岡 ルミノール化学発光 松本浩太 福山 魚谷幸史 Flow ESR 肥沼 柴本正貴 笹川(平川)麻理子 中村政嗣 CdS 電析 西野 吉田麻衣子 イオン交互堆積 Sittidej Teekateerawej(ホン) 野坂篤子研究員 (SILAR) 笹川 緒方克臣 青田康宏 小森茂樹 八幡健太 Cd + S 交互堆積 笹川 宮城島好朗 夏井勇人 O2- , H2O2 平川 目崎洋介 菅谷 剛 松下政美 ・OH detection 小森 石田順一 教授(反応物理化学研) 教授 大門利博 村上能規助手 山田そよか (2009年まで) 近赤外光検出 古田勝司 一重項酸素1O2 大門 遠藤健史 笠原文聡 Trung H Tran 2005 末竹純也 2006 2007 2008 2009 2010 肥沼 Langmuir 12 (3), 736-738 北澤正広 五十嵐(平澤)敬子 楊 宇 (博士研究員) 田中吾郎 大栗延章 太田育樹 五十嵐学 酢谷京平 渡部太朗 渡邉昌英 桒原 豊 橋爪正晴 松井圭太 大高顕二 坂本穂高 門崎夏子 Ponchio Chatchai(社会人) 莖澤 孝 齋藤拓信 高橋慎一郎 丸山達也 村山誠悟 小熊 淳一(社会人) 伊藤 潤 古泉洋三 三谷泰史 Nドープ-TiO2 ・OHレーザー誘起蛍光 TiO2細孔膜 Langmuir 13 (4), 708 J. Photochem Photobiol A 110 (3), 299 J. Physical Chemistry B 101 (30), 5822 J. Physical Chemistry B 102 (50), 10279 J. Electroanalytical chem. 473 (1), 217 Electrochemistry 67 (12), 1237 Phys. Chem. Chem. Phys. 3 (16), 3371 82 81 240 112 111 56 7 13 Langmuir 18 (8), 3247 361 Phys. Chem.Chem.Phys. 5 (20), 4731 106 Phys. Chem. Chem. Phys. 6 (11), 2917 81 「入門光触媒」 (東京図書) 松下 Science and Technol of Adv. Mater. 6 , 143 村上 J. Physical Chemistry B 110 (34), 16808 遠藤 ホン J. Photochem Photobiol A: 179(3), 263 237 54 23 平川 Applied Catalysis A: 325 (1), 105 八幡 155 一重項酸素 大門 Applied Catalysis A: 340 (2) 169 50 TiO 2 ナノチューブ 末竹 J. Physical Chemistry C 112 (47), 18474 40 BiVO 4/WO 3電極 Chai Electrochimica Acta 54 (3), 1147 燃料電池 クマリン 大栗 Electrochem, Solid-State Letters 12(6) B94 23 Cu/TiO2 ESR 高橋 J. Physical Chemistry C ,115, 21283 38 OH , H2O2 発光分析 岸岡真也助教 (2009年まで) 119 FIRDAUS BIN HAMDAN 2011 2012 2013 2014 2015 2016 松崎彩乃 張 傑 中林志達 樋浦想太 大野雄毅 角間勇介 吉野公明 三井雅治 高浪亮多 楊 文静 大家雄太 中越郁絵 長谷川 貴大 福田真之 藤木 郁 Tan Lee Hua 加美川晴信 清水 愛 由藤宗一郎 小泉修羅 白石 亘 瀬川龍生 西川雅美(特任)助教 Fe/Ru:TiO2 三谷 J. Physical Chemistry C,116,14900 ESR 西川 ・OH、 TiO2 SiO 2/TiO 2 TiO 2単結晶電極 Au/TiO 2 1O2 張 小熊 角間 中林 齋藤 J. Physical Chemistry C, 117, 1383 Applied Catalysis B: 129, 282 J. Physical Chemistry C117, 23832 J. Physical Chemistry C,118,15658 27 13 4 7 2 野坂芳雄 研 究 業 績 一 覧 (学術論文 p.1-16, 著書 p.16-17, 総説等 p.17-23, 特許出願 p.23-24) 学術論文 (P) 202. Auger ionization beats photo-oxidation of semiconductor quantum dots: Paradigm in the single-molecule photoluminescence stability Shin-ichi Yamashita, Morihiko Hamada, Shunsuke Nakanishi, Hironobu Saito, Yoshio Nosaka, Shin-ichi Wakida, Vasudevanpillai Biju Angew. Chem., Intern. Ed. 54(13),3892-3896 (2015) 201. Photocatalytic carbon dioxide reduction by copper oxide nanocluster-grafted niobate nanosheets Ge Yin, Masami Nishikawa, Yoshio Nosaka, Nagarajan Srinivasan, Daiki Atarashi, Etsuo Sakai, Masahiro Miyauchi ACS Nano, 9(2), 2111-2119 (2015). 200. Generation of OH radicals and oxidation mechanism in photocatalysis of WO3 and BiVO4 powders。 Jie Zhang, Yoshio Nosaka J. Photochem. Photobiol. A 303,53-58 (2015) 199. Enhancement of the generation of photocatalytic active species by loading copper ions on gold-nanoparticledeposited titanium dioxide Hironobu Saito, Yoshio Nosaka Catal. Commun. Web(2014/12/27) 61, 117-120 (2015) 198. Photocatalytic oxidation mechanism of methanol and the other reactants in irradiated TiO2 aqueous suspension investigated by OH radical detection Jie Zhang, Yoshio Nosaka, Appl. Catal. B, Environ (2014/11/15) 166-167, 32-36 (2015) 197. Deactivation of singlet oxygen by titanium dioxide in aqueous solution studied by phosphorescence quenching with porphyrin photosensitizers, Hironobu Saito, Yoshio Nosaka, J. Phys. Chem. C 118(42), 24648-24654 (2014/9/29) 196. Mechanism of singlet oxygen generation in visible-light-induced photocatalysis of gold-nanoparticle-deposited titanium dioxide, Hironobu Saito, Yoshio Nosaka J. Phys. Chem. C 118(29), 15656–15663 (2014/6/27) 195. Study by use of 1H NMR spectroscopy of the adsorption and decomposition of glycine, leucine, and derivatives in TiO2 photocatalysis Atsuko Y. Nosaka, Goro Tanaka, and Yoshio Nosaka, J. Phys. Chem., B118(27), 7561-7567 (2014/6/16) 194. Enhanced photoactivity with nanocluster-grafted titanium dioxide photocatalysts. Min Liu, Ryota Inde, Masami Nishikawa, Xiaoqing Qiu, Daiki Atarashi, Etsuo Sakai, Yoshio Nosaka, Kazuhito Hashimoto, Masahiro Miyauchi ACS Nano, 8 (7), 7229-7238 (2014/6/2) 193. Dominating factors for high performance of Fe3+ grafted metal doped TiO2 based photocatalyst, Masami Nishikawa, Ryota Takanami, Fumie Nakagoshi, Hiroshi Suizu, Hideyuki Nagai, Yoshio Nosaka Appl. Catal. B. Environ.160-161, 722-729 (2014) 192. Mechanism of the OH radical generation in photocatalysis with TiO2 of different crystalline types Jie Zhang, Yoshio Nosaka, - 1 - J. Phys. Chem. C, 118 (20), 10824-10832 (2014) 191. Fabrication of CuBi2O4 photocathode through novel anodic electrodeposition for solar hydrogen production, Yukihiro Nakabayashi, Masami Nishikawa, Yoshio Nosaka Electrochim. Acta, 125, 191-198 (2014) 190. OH radical formation at distinct faces of rutile TiO2 crystal in the procedure of photoelectrochemical water oxidation, Yukihiro Nakabayashi, Yoshio Nosaka J. Phys. Chem. C, 117(45), 23832-23839 (2013) 189. Thermodynamic and electrochemical study on the mechanism of formation of Ag(OH)4− in alkaline media, I.R. Zamora-Garcia, A. Alatorre-Ordaz, J.G. Ibanez , M.G. Garcia-Jimenez, Y. Nosaka, T. Kobayashi, S. Sugita Electrochim. Acta, 111, 268-274 (2013) 188. Singlet-oxygen-sensitizing near-infrared-fluorescent multimodal nanoparticles Edakkattuparambil Sidharth Shibu, Sakiko Sugino, Kenji Ono, Hironobu Saito, Ayama Nishioka, Shohei Yamamura, Makoto Sawada, Yoshio Nosaka, and Vasudevanpillai Biju Angew. Chem. Int. Ed. 52(40), 10559-10563 (2013) 187. Kinetics simulation of luminol chemiluminescence based on quantitative analysis of photons generated in electrochemical oxidation. Yozo Koizumi and Yoshio Nosaka, J. Phys. Chem. A, 117 (33), 7705–7711 (2013) 186. Grafting effects of Cu(Ⅱ) on the photocatalytic activity of titanium-substituted hydroxyapatite, Masami Nishikawa, Wenjing Yang, Yoshio Nosaka J. Mol. Catalysis. A, 378, 314-318 (2013) 185. Bifunctionality of Rh3+ modifier on TiO2 and working mechanism of Rh3+/TiO2 photocatalyst under irradiation of visible light Kitano, Sho; Murakami, Naoya; Ohno, Teruhisa; Mitani, Yasufumi; Nosaka, Yoshio; Asakura, Hiroyuki Kentaro Teramura, Tsunehiro Tanaka, Hiroaki Tada, Keiji Hashimoto, Hiroshi Kominami J. Phys. Chem, C, 117 (21), 11008-11016 (2013) 184. Enhanced photocatalytic activity of BiVO4 by co-grafting of metal ions and combining with CuBi2O4 Masami Nishikawa, Souta Hiura, Yasufumi Mitani, Yoshio Nosaka J. Photochem. Photobiol. A. Chem. 262, 52-56 (2013) 183. Photoelectrocatalytic performance of WO3/BiVO4 toward the dye degradation Ponchio Chatchai, Atsuko Y. Nosaka, Yoshio Nosaka Electrochim. Acta, 94, 314-319 (2013) 182. Photosensitized damage of protein by fluorinated diethoxyphosphorus(V)porphyrin K. Hirakawa, K. Azumi, Y. Nishimura, T. Arai, Y. Nosaka, S. Okazaki J. Porphyrins Phthalocyanines 17, 56-62 (2013) 181. Quantitative detection of OH radicals for investigating the reaction mechanism of various visible-light TiO2 photocatalysts in aqueous suspension Jie Zhang, Yoshio Nosaka, J. Phys. Chem. C. 117(3), 1383-1391 (2013) 180. Effects of silica coating on photocatalytic reactions of anatase titanium dioxide studied by quantitative detection of reactive oxygen species Junichi Oguma, Yusuke Kakuma, Seigo Murayama, Yoshio Nosaka, Appl. Catal. B: Environ. 129, 282-286 (2013) 179. Phosphorescence detection of the singlet molecular oxygen generated by visible-light irradiation on gold-nanoparticle-deposited TiO2 photocatalysts Hironobu Saito, Yoshio Nosaka Chem. Lett., 41(12), 1591-1593 (2012) - 2 - 178. Effects of silica-coating on the photoinduced hole formation and decomposition activity of titanium dioxide photocatalysts under UV irradiation Junichi Oguma,Yusuke Kakuma, Masami Nishikawa, Yoshio Nosaka Catal. Lett., 142(12), 1474-1481 (2012) 177. Reinvestigation of photocatalytic reaction mechanism for Pt-complex-modified TiO2 under visible-light irradiation by means of ESR spectroscopy and chemiluminescence photometry Masami Nishikawa, Hodaka Sakamoto, Yoshio Nosaka J. Phys. Chem. A, 116 (39), 9674-9679(2012) 176. The behaviors of glutathione and related amino acids in TiO2 photocatalytic system Atsuko Nosaka, Goro Tanaka, Yoshio Nosaka J. Phys. Chem. B, 116 (36), 11098-11102 (2012) 175. Photosensitizer dye nanoparticle-coated membranes for singlet oxygen generation under atmospheric conditions Daiki Ito, Yukiko Takahashi, Hironobu Saito, Yoshio Nosaka, Chem. Lett., 41, 877-879 (2012) 174. Photocatalytic reaction mechanism of Fe(III)-grafted TiO2 studied by means of ESR spectroscopy and Chemiluminescence photometry Masami Nishikawa, Yasufumi Mitani, Yoshio Nosaka J. Phys. Chem. C. 116(28),14900-14907 (2012). 173. Grafting effects of Fe(III) on photocatalytic activities of WO3 and BiVO4 on visible-light irradiation Masami Nishikawa, Souta Hiura, Yasufumi Mitani, Yoshio Nosaka Trans. GIGAKU, 1, 01013 (2012) 172. Controlled generation of singlet oxygen by water-soluble meso-pyrenylporphyrin photosensitizer under an interaction with DNA Kazutaka Hirakawa, Mari Harada, Shigetoshi Okazaki, Yoshio Nosaka Chem. Commun. 48(39), 4770-4772 (2012) 171. Dynamics of the singlet oxygen generation by DNA-binding photosensitizers. Kazutaka Hirakawa, Toru Hirano, Yoshinobu Nishimura, Tatsuo Arai, Yoshio Nosaka; J. Phys. Chem. B, 116(9), 3037-3044 (2012) 170. Reaction mechanism of visible-light responsive Cu(II)-grafted Mo-doped SrTiO3 photocatalyst studied by means of ESR spectroscopy and chemiluminescence photometry. Yoshio Nosaka, Shinichiro Takahashi, Yasufumi Mitani, Xiaoqing Qiu, Masahiro Miyauchi Appl. Catal. B. 111, 636-640 (5/12)(2012) 169. Top-level performance. Particle flotation enhances efficiency of self-cleaning coating, Junichi Oguma, Tatsuro Niguma, Akira Nakabayashi. Yoshio Nosaka Eur. Coatings J. (12) 84-87 (2011) 168. Reaction mechanism of Cu(II)-grafted visible-light responsive TiO2 and WO3 photocatalysts studied by means of ESR spectroscopy and chemiluminescence photometry Yoshio Nosaka, Shinichiro Takahashi, Hodaka Sakamoto, Atsuko Y. Nosaka, J. Phys. Chem. C. 115, (43), 21283-21290 (2011) 167. The effect of platinum deposition on the water photo-reduction at p-Cu2O semiconductor electrodes with visible light irradiation, Ponchio Chatchai, Atsuko Y. Nosaka, Yoshio Nosaka Electrochemistry 79(10), 821-825 (2011) 166. Control of singlet oxygen generation photosensitized by meso-anthrylporphyrin through interaction with DNA Kazutaka Hirakawa, Toru Hirano, Yoshinobu Nishimura, Tatsuo Arai, Yoshio Nosaka Photochem. Photobiol. 87,833-839 (2011) 165. Detection of OH radicals generated in polymer electrolyte membranes of fuel cells. Yoshio Nosaka, Kenji Ohtaka, Nobuaki Ohguri, Atsuko Y. Nosaka - 3 - J. Electrochem. Soc.158(4), B430-B433 (2011). 164. Femtosecond diffuse reflectance spectroscopy of various commercially available TiO2 powders. Y.Murakami, J. Nishino, T. Mesaki, Y. Nosaka Spectroscopy Lett. 44(2), 88-94 (2011). 163. Water-soluble phosphrousporphyrins with high activity for visible light-assisted inactivation of Saccharomyces cerevisiae; Jin Matsumoto, Tomohiko Shinbara, Shin-ichiro Tanimur, Tomoko Matsumoto, Tsutomu Shiragami, Haruhiko Yokoi, Yoshio Nosaka, Shigetoshi Okazaki, Kazutaka Hirakawa, Masahide Yasuda; J. Photochem. Photobiol. A, 218(1), 178-184 (2011) . 162. Oxygen-independent photosensitizer: phosphorus(V)porphyrin, K. Hirakawa, R. Kikuchi, H. Segawa, T. Hirano, S. Okazaki, Y. Nosaka Photomed. Photobiol. 32, 15-16 (2010). 161. Detection of OH radicals generated in polymer membranes of PEFC. Y. Nosaka, K. Ohtaka, N. Ohguri, A. Y. Nosaka ECS Trans., 33, 899-905 (2010) 160. Direct detection of OH radicals in the gas-phase diffused from the Pt/TiO2 and WO3/TiO2 photocatalysts under the UV light irradiation. Yoshinori Murakami, Ikki Ohta, Tsutomu Hirakawa, Yoshio Nosaka Chem. Phys. Lett. 493 (4-6), 292-295 (2010) 159. Detection of OH radicals as the effect of Pt particles in the membrane of polymer electrolyte fuel cells Nobuaki Ohguri, Atsuko Y. Nosaka, Yoshio Nosaka J. Power Sources, 195(15) , 4647-4652 (2010) 158. Enhanced catalytic activity of FTO/WO3/BiVO4 electrode by gold nanoparticle modification for visible light water oxidation Ponchio Chatchai, Shin-ya Kishioka, Yoshinori Murakami, Atsuko Y. Nosaka, Yoshio Nosaka Electrochimica Acta, 55(3), 592-596 (2010) 157. Developments of the efficient water-splitting electrodes under the visible light irradiation Yoshinori Murakami, Ponchio Chatchai, Yoshio Nosaka Electrochemistry(Headline) 77(1), 44-48 (2009) 156. Singlet oxygen generation from the photosensitized reaction In DNA microenvironment Kazutaka Hirakawa, Yoshio Nosaka, Toru Hirano, Yoshinobu Nishimura, Tatsuo Arai Photomed. Photobiol. 31,7-8 (2009) 155. Density functional study of the high-temperature oxidation of o-, m- and p-xylyl radicals Yoshinori Murakami, Tasuo Oguchi, Kohtaro Hashimoto and Yoshio Nosaka J. Phys. Chem. A,113(40), 10652-10666 (2009) 154. Spin-trapping ESR detection of OH radicals generated in the electrode reactions for PEFC Yoshio Nosaka, Kenji Ohtaka, Masahiro Kitazawa, Shin-ya Kishioka, Atsuko Y. Nosaka Electrochem. Solid State Lett. 12(2), B14-B17 (2009). 153. Efficient photocatalytic activity of water oxidation over WO3/BiVO4 composite under visible light irradiation, Ponchio Chatchai, Yoshinori Murakami, Shin-ya Kishioka, Atsuko Y. Nosaka, Yoshio Nosaka Electrochim. Acta, 54, 1147-1152 (2009) 152. Detection of OH radicals formed at PEFC electrodes by means of a fluorescence probe. N. Ohguri, A. Y. Nosaka, Y. Nosaka Electrochem. Solid-State Lett. 12(6), B94-B96 (2009). 151. Estimation of water contents of polymer electrolytes by 1H NMR spectroscopy Atsuko Y. Nosaka, Yoshio Nosaka ECS Trans. 25, 839-845 (2009) - 4 - 150. The characteristics of titanate nanotube and the states of the confined sodium ions Junya Suetake, Atsuko Y. Nosaka, Kazunori Hodouchi, Hiroshi Matsubara, and Yoshio Nosaka J. Phys. Chem. C, 112(47), 18474-18482 (2008) 149. Behavior of water molecules in PEFCs as studied by 1H NMR spectroscopy Atsuko Y. Nosaka, Yoshio Nosaka ECS Trans. 16(2), 937-944 (2008) 148. Selective production of superoxide ions and hydrogen peroxide over nitrogen- and sulfur-doped TiO2 photocatalysts with visible light in aqueous suspension systems Tsutomu Hirakawa, Yoshio Nosaka J. Phys. Chem. C 112, 15818–15823 (2008). 147. Novel FTO/ SnO2/BiVO4 composite photo-electrode for water oxidation under visible light irradiation Ponchio Chatchai, Yoshinori Murakami, Shin-ya Kishioka, Atsuko Y. Nosaka, Yoshio Nosaka Electrochem Solid State Lett, 11(6), H160-H163 (2008) 146. Slow morphological change of perfluorinated ionomer as deduced from 1H NMR spectra of confined water Atsuko Y. Nosaka, Yoshio Nosaka J. Power Sources. 180(2), 733-737 (2008) 145. Formation of singlet molecular oxygen associated with the formation of superoxide radicals in aqueous suspensions of TiO2 photocatalysts Toshihiro Daimon, Tsutomu Hirakawa, Masahiro Kitazawa, Junya Suetake, Yoshio Nosaka Appl. Catal. A, General. 340(2), 169-175 (2008). 144. Radical formation in the polymer electrolyte fuel cell components as studied by ESR spectroscopy Masahiro Kitazawa, Atsuko Y. Nosaka, Yoshio Nosaka J. Appl. Electrochem. 38(4), 491-496 (2008) 143. Monitoring the formation and decay of singlet molecular oxygen in TiO2 photocatalytic systems and the reaction with organic molecules. Toshihiro Daimon, Tsutomu Hirakawa, Yoshio Nosaka, Electrochemistry, 76(2), 136-139 (2008) 142. Laser ablation of the photocatalytic BiVO4 and BiZn2VO6 powders in water and their photocurrent properties Yoshinori Murakami, Manabu Ikarashi, Masaharu Hashizume, Astuko Nosaka and Yoshio Nosaka Electrochem. Solid-State Lett. 11(2), H42-H46 (2008) 141. Theoretical study of the benzyl + O2 reaction: Kinetics, mechanism and product branching ratios Yoshinori Murakami, Tatsuo Oguchi, Kohtaro Hashimoto, Yoshio Nosaka J. Phys. Chem. A, 111(50), 13200-13208 (2007) 140. Adsorption and decomposition of a dipeptide (Ala-Trp) in TiO2 photocatalytic systems: Trung H. Tran, Atsuko Y. Nosaka, Yoshio Nosaka; J. Photochem. Photobiol. A, Chem. 192(2-3), 105–113 (2007). 139. Can OH radicals diffuse from the UV-irradiated photocatalytic TiO2 surfaces? Laser-induced fluorescence study Yoshinori Murakami, Kenji Endo, Ikki Ohta, Atsuko Y Nosaka, Yoshio Nosaka J. Phys. Chem. C. 111(30), 11339-11346 (2007) 138. An approach to estimating photocatalytic activity of TiO2 photocatalyst by monitoring dissolved oxygen and superoxide ion on decomposing organic compounds T. Hirakawa, T. Daimon, M. Kitazawa, N. Ohguri, C. Koga, N. Negishi, S. Matsuzawa, Y. Nosaka J. Photochem. Photobiol. A. Chem. 190(1), 58-68 (2007) 137. Photocatalytic reactivity for O2•- and OH• radical formation in anatase and rutile TiO2 suspension as the effect of H2O2 addition. Tsutomu Hirakawa, Kenta Yawata, Yoshio Nosaka Appl. Catal. A, General, 325(1), 105-111 (2007) - 5 - 136. A novel photocatalyst, BiCu2PO6, for efficient visible-light-driven oxygen evolution. Yu Yang, Yoshinori Murakami, Atsuko Y. Nosaka, Yoshio Nosaka Adv. Technol. Mater. Mater. Process, J. 9(2), 115-118 (2007) 135. Formation and behavior of singlet molecular oxygen in TiO2 photocatalysis studied by detecting near-infrared phosphorescence. Toshihiro Daimon, Yoshio Nosaka J. Phys. Chem.. C. 111(11), 4420-4424 (2007) 134. The behavior of water confined in chemically deteriorated PEFC membranes as studied by 1H NMR spectroscopy Atsuko Y. Nosaka, Satoru Watanabe, Ichiro Toyoda, Yoshio Nosaka Electrochemistry,75(2), 137-139 (2007). 133. Photoelectrochemical properties of the sulfur-doped TiO2 film electrodes: Characterization of the doped states by means of the photocurrent measurements Yoshinori Murakami, Bunso Kasahara, Yoshio Nosaka Chem. Lett. 36(2), 330-331 (2007) 132. Photo-oxidation mechanism of L-alanine in TiO2 photocatalytic systems as studied by proton NMR spectroscopy. Masami Matsushita, Trung H. Tran, Atsuko Y.Nosaka, Yoshio Nosaka Catalysis Today 120(2), 240-244 (2007) 131. Adsorption and photocatalytic decomposition of amino acids in TiO2 photocatalytic systems. Trung H. Tran, Atsuko Y. Nosaka, Yoshio Nosaka J. Phys. Chem. B, 110, 25525-25531 (2006). 130. Direct detection of OH radicals diffused to the gas phase from the UV-irradiated photocatalytic TiO2 surfaces by means of laser induced fluorescence spectroscopy. Yoshinori Murakami, Endo Kenji, Atsuko Y Nosaka, Yoshio Nosaka J. Phys. Chem. B, 110(34), 16808-16811 (2006) 129. Persistent change in the behavior of water in a perfluorinated ionomer after heating Atsuko Y. Nosaka, Satoru Watanabe, Ichiro Toyoda, Yoshio Nosaka; Macromolecules, 39(13), 4425-4427 (2006) 128. Electron spin resonance studies on the oxidation mechanism of sterically hindered cyclic amines in TiO2 photocatalytic systems. Yoshio Nosaka, Hayato Natsui, Mariko Sasagawa, Atsuko Y. Nosaka, J. Phys. Chem. B, 110(26), 12993-12999 (2006) 127. TiO2 Photocatalytic micro-channel reactors using capillary plates. Sittidej Teekateerawej, Junichi Nishino, Yoshio Nosaka Adv. Mater. Res. 11, 303-306 (2006) 126. Effects of thermal treatments on the recovery of adsorbed water and photocatalytic activities of TiO2 photocatalytic systems , A.Y. Nosaka, J. Nishino, T. Fujiwara, T. Ikegami, H. Yagi, H. Akutsu, Y. Nosaka J. Phys. Chem, B, 110(16), 8380-8385 (2006) 125. Design and evaluation of photocatalytic micro-channel reactors using TiO2 coated porous ceramics. Sittidej Teekateerawej, Junichi Nishino, Yoshio Nosaka, J. Photochem. Photobiol. A, Chemistry 179(3), 263-268 (2006) 124. Laser-induced incandescence study on the metal aerosol particles as the effect of the surrounding gas medium. Yoshinori Murakami, Tsuyoshi Sugatani, Yoshio Nosaka J. Phys. Chem. A, 109(40), 6994-7000 (2005) 123. Fabrication of CdS photoelectrodes coated with titania nanosheets for water splitting with visible light. Soyoka Yamada, Atsuko Y. Nosaka, Yoshio Nosaka J. Electroanal. Chem. 585(1), 105-112 (2005) - 6 - 122. The role of electrolyte components in the electrodeposition of CdS films studied by cyclic voltammetry Tran Trung, Pham Thi Hanh, Vu Thi Huong, Junichi Nishino, Yoshio Nosaka Electrochemistry, 73(9), 807-812 (2005) 121. Characteristics of water adsorbed on TiO2 photocatalytic surfaces as studied by 1H-NMR spectroscopy Atsuko Y. Nosaka, Yoshio Nosaka Bull. Chem. Soc. Jpn. 78(9), 1595-1607 (2005) 120. Time-resolved study of the vaporization and the heat loss processes of the metal aerosol particles induce by the near-infrared pulsed laser irradiations Y. Murakami, T. Sugatani, Y. Nosaka, IASTA Bulletin, 17, 33-34 (2005) 119. Photocatalytic microreactor study using TiO2-coated porous ceramics. Sittidej Teekateerawej, Junichi Nishino, Yoshio Nosaka J. Appl. Electrochem. 35(7), 693-697 (2005). 118. Nitrogen-doped titanium dioxide photocatalysts for visible response prepared by using organic compounds Y. Nosaka, M. Matsushita, J. Nishino, A.Y. Nosaka Sci. Tech Adv. Mater. 6(2), 143-148 (2005). 117. An Influence of Copper Particle Size on the Morphology of Silver Tree Formed from AgNO3 Aqueous Solution. Junichi Nishino, Yoshirou Miyagishima, Yoshio Nosaka Electrochemistry, 72, 743-746 (2004) 116. Low temperature preparation of ZnO by a nearby vaporizing chemical vapor deposition method. J. Nishino, Y. Nosaka. J. Crystal Growth 268(1-2), 174-177 (2004). 115.Preparation of TiO2 by a nearby vaporization chemical vapor deposition method. Junichi Nishino, Sittidej Teekateerawej, Yoshio Nosaka J. Mater. Sci. 39(11), 3813-3816 (2004) 114. Characteristics of water adsorbed on TiO2 photocatalytic systems on temperature increase as studied by solid-state 1H-NMR spectroscopy. Atsuko Y.Nosaka, Toshimichi Fujiwara, Hiromasa Yagi, Hideo Akutsu, Yoshio Nosaka J. Phys. Chem. B, 108(26), 9121-9125 (2004) 113. Preparation of nitrogen doped titanium dioxide by using guanidine and its characterization Masami Matsushita, Atsuko Y. Nosaka, Junichi Nishino, Yoshio Nosaka J. Ceramic Soc. Jpn. 112(5), S1411-S1413 (2004) 112. Singlet oxygen formation in photocatalytic TiO2 aqueous suspension Yoshio Nosaka, Toshihiro Daimon, Atsuko Y. Nosaka, Yoshinori Murakami Phys. Chem. Chem. Phys, 6(11), 2917-2918 (2004). 111. Photoinduced changes of adsorbed water on a TiO2 photocatalytic film as studied by 1H- NMR spectroscopy, A. Y. Nosaka, E. Kojima, T. Fujiwara, H. Yagi, H. Akutsu, Y. Nosaka J. Phys. Chem. B, 107(44), 12042-12044 (2003) 110. Photocatalytic ・OH radical formation in TiO2 aqueous suspension studied by several detection methods Yoshio Nosaka, Shigeki Komori , Kenta Yawata, Tsutomu Hirakawa, Atsuko Y. Nosaka Phys. Chem. Chem. Phys, 5(20), 4731-4735 (2003) 109. Preparation of TiO2 coated Al2O3 membrane by a pyrolysis method Junichi Nishino, Sittidej Teekateerawej, Yoshio Nosaka J. Mater. Sci. Lett, 22(14), 1007-1009 (2003). 108. Preparation of TiO2 coated Alumina Membranes for Photocatalytic Activity - 7 - Sittidej Teekateerawej, Junichi Nishino, Yoshio Nosaka Adv. Technol. Mater. Mater. Process, J. 5(2), 80-83 (2003) 107. Preparation of ZnO by a nearby vaporizing CVD method. J. Nishino, Y. Nosaka J. Mater. Res. 18(9), 2029-2032 (2003) 106. Photocatalytic reaction sites at the TiO2 surface as studied by solid-state 1H-NMR spectroscopy. Atsuko Y.Nosaka, Toshimichi Fujiwara, Hiromasa Yagi, Hideo Akutsu, Yoshio Nosaka Langmuir, 19(6), 1935-1937 (2003) 105. The effect of chelating reagents on the layer-by-layer formation of CdS films in the electroless and electrochemical Deposition Processes Mariko Sasagawa, Yoshio Nosaka Electrochim. Acta, 48(5), 483-488 (2003) 104. Electronic states of chemically modified CdS nanoparticles. Electrochemical evaluation of the roles of chelating reagents in Cd ion adsorption on CdS surface for the successive ionic layer adsorption and reaction (SILAR) deposition. Mariko Sasagawa, Yoshio Nosaka J. Electroanal. Chem. 536(1), 141-144 (2002) 103. Novel method for linking CdS nanoparticles at liquid-liquid interface. Yoshio Nosaka, Masataka Shibamoto, Junichi Nishino J. Colloid Interface Sci., 251(1), 230-232(2002) 102. Properties of O2-• and OH• formed in TiO2 aqueous suspensions by photocatalytic reaction and the influence of H2O2 and some ions Tsutomu Hirakawa, Yoshio Nosaka Langmuir, 18(8), 3247-3254 (2002) 101. Photoinduced changes of surface and adsorbed water in TiO2 photocatalytic systems as studied by solid state 1 H-NMR spectroscopy Atsuko Y. Nosaka, Toshimichi Fujiwara, Hiromasa Yagi, Hideo Akutsu, Yoshio Nosaka Chem. Lett., (3), 420-421 (2002) 100. Effect of phenyl-capping and dimer formation on the electronic states of CdS nanoparticles by means of semiempirical molecular orbital calculations. Yoshio Nosaka, Hiroshi Tanaka J. Phys .Chem. B, 106(13), 3389-3393 (2002) 99. Behavior of superoxide radicals formed on TiO2 powder photocatalysts studied by a chemiluminescent probe method. Yoshio Nosaka, Masatsugu Nakamura, and Tsutomu Hirakawa; Phys. Chem. Chem. Phys. 4 (6), 1088-1092 (2002) 98. Studies on the effects of Cd ion sources and chelating reagents on atomic layer CdS deposition by successive ionic layer adsorption and reaction (SILAR) method. Mariko Sasagawa and Yoshio Nosaka Phys. Chem. Chem. Phys. 3(16), 3371-3376 (2001) 97. Mechanism of photocatalytic production of active oxygens on highly crystalline TiO2 particles by ESR and chemiluminescence spectroscopy. Tsutomu Hirakawa, Hiroshi Kominami, Bunsho Ohtani, and Yoshio Nosaka J. Phys. Chem. B, 105 (29), 6993–6999 (2001) 96. Photocatalytic stereoselective N-cyclization of 2,6-diaminopimelic acid into piperidine-2,6-dicarboxylic acid by an aqueous suspension of activated cadmium(II) sulfide particles. B. Ohtani; S. Kusakabe; K. Okada; S. Tsuru; S. Nishimoto; Y. Amino; K. Izawa; Y. Nakato; M. Matsumura; Y. Nakaoka; Y. Nosaka , J. Chem. Soc. Perkin 2(2), 201–209 (2001) - 8 - 95. Photo-responsive discharging effect of static electricity at TiO2-coated plastic films Shie Koizumi, Ryuji Igarashi, Yoshio Nosaka J. Mater. Sci. Lett. 19(16), 1431-1434 (2000) 94. Effect of cadmium precursor solutions on fabrication of CdS thin films by successive ionic layer adsorption and reaction (SILAR) technique. M. Sasagawa, J. Nishino, Y. Nosaka Electrochemistry, 67(12), 1237-1139 (1999) 93. Electrodeposition method for controlled formation of CdS films from aqueous solution. Junichi Nishino, Sunao Chatani, Yukifumi Uotani, Yoshio Nosaka J. Electroanal. Chem. 473(1), 217-222(1999). 92. Effect of irradiation on preparation of CdS films from aqueous solution by electrodeposition method. J. Nishino, S. Chatani, Y. Nosaka. Electrochemistry, 67(12), 1141-1143 (1999) 91. Primary passages for various TiO2 photocatalysts studied by means of luminol chemiluminescent probe. T. Hirakawa, Y. Nakaoka, J. Nishino, Y. Nosaka, J. Phys. Chem. B, 103(21), 4399-4403 (1999) 90. Factors governing the initial process of TiO2 photocatalysis studied by means of in-situ electron spin resonance measurements. Yoshio Nosaka, Mitsuo Kishimoto, Junichi Nishino J. Phys. Chem. B, 102(50), 10279-10283 (1998) 89. Time dependent behavior of active oxygen species formed on photoirradiated TiO2 films in air. K. Ishibashi, Y. Nosaka, K. Hashimoto, A. Fujishima: J. Phys. Chem. B, 102(12), 2117-2120 (1998) 88. The dispersion effect of TiO2 loading over ZSM-5 zeolite S. Zhang, N. Fujii, Y. Nosaka, J. Molec. Catal., A: Chem. 129(2-3), 219-224(1998) 87. Chemical bath deposition of band gap tailored indium sulfide thin films, Tsukasa Yoshida, Koichi Yamaguchi, Hisashi Toyoda, Kimiho Akao, Takashi Sugiura, Hideki Minoura, Yoshio Nosaka: Proc. Electrochem. Soc. 20, 37-57 (1997) 86. ESR investigation into the effects of heat treatment and crystal structure on radicals produced over irradiated TiO2 powder. Y. Nakaoka, Y. Nosaka J. Photochem. Photobiol., A, Chem. 110(3), 299-307 (1997) 85. Application of chemiluminescent probe to monitoring superoxide radicals and hydrogen peroxide in TiO2 photocatalysis Yoshio Nosaka, Yoshifumi Yamashita, Hiroshi Fukuyama J. Phys. Chem. B, 101, 5822-5827 (1997). 84. Electron spin echo investigation for radicals produced on ZnS semiconductor photocatalysts. Y. Nosaka, Y. Nakaoka, K. Ushida, A. Kira Chem. Lett, (7), 661-662 (1997) 83. Electron spin resonance study of radicals produced by photoirradiation on quantized and bulk ZnS particles. Y. Nakaoka, Y. Nosaka Langmuir, 13(4), 708ー713 (1997) 82. Application of chemiluminescent probe to the characterization of TiO2 photocatalysts in aqueous suspension - 9 - Yoshio Nosaka, Hiroshi Fukuyama Chem. Lett. (4), 383-384 (1997) 81. Formation steps of CdS clusters in aqueous solution containing 2-mercaptoethanol. Y. Nosaka, H. Shigeno, T. Ikeuchi Surf. Rev. Lett. 3(1), 1209-1213 (1996). 80. EPR investigation of unstable intermediates in photoinduced reactions at CdS semiconductor particles dispersed on CdO. Y. Nakaoka, Y. Nosaka Bull. Magnetic Resonance, 18(1-2), 141-142 (1996). 79. Photocatalytic property of titanium silicate zeolite S. Zhang, T. Kobayashi, Y. Nosaka, N. Fujii J. Molec. Catal. A: Chem. 106(1-2), 119-123 (1996). 78. Reaction mechanism of the decomposition of acetic acid on illuminated TiO2 powder studied by means of in Situ electron spin resonance measurements. Yoshio Nosaka, Katsuchika Koenuma, Kiminori Ushida, Akira Kira Langmuir, 12(3), 736-738 (1996) 77. Shock-tube study of high-temperature oxidation of phenyl radical N. Fujii, H. Muratake, K. Okamura, T. Kobayashi, Y. Nosaka Shock Waves @Marseille II, 173-178 (1995). 76. Photoinduced reduction of W10O324- with organic compounds in aqueous solution. Y. Nosaka, T. Takei, N. Fujii J. Photochem. Photobiol., A. Chem. 92(3), 173-180(1995) 75. Characterization of titanium oxide encapsulated zeolites and its photocatalytic application for NO Decomposition. Shicheng Zhang, Takaomi Kobayashi, Yoshio Nosaka, Nobuyuki Fujii Electrochemistry, 63(10), 927-931 (1995). 74. Electron Spin Resonance Study of Radicals Produced on Irradiated CdS Powder. Y. Nakaoka, Y. Nosaka J. Phys. Chem. 99(24) 9893-9897 (1995) 73. Effect of platinum loading on the photocatalytic activity of cadmium(II) sulfide particles suspended in aqueous amino acid solution B. Ohtani, J. Kawaguchi, M. Kozawa, Y. Nakaoka, Y. Nosaka, S. Nishimoto. J. Photochem. Photobiol., A, Chem., 90(1), 75-80 (1995) 72. Formation of polynuclear cadmium-thiolate complexes and CdS clusters in aqueous solution studied by means of stopped-flow and NMR spectroscopies. Yoshio Nosaka, Haruo Shigeno, Tomomi Ikeuchi J. Phys. Chem. 99(22), 8317-8322 (1995). 71. Effect of the amount of reactant on the photon-fluence dependence in laser-induced transient formation at the surface of colloidal semiconductor particles. Yoshio Nosaka, Yasuhiro Nakaoka Langmuir, 11(4), 1170-1173 (1995) 70. Restricted permeation of dextransulfates by electrostatic barrier of negatively charged ultrafiltration membranes: salt effects on the permeation. T. Kobayashi, T. Nagai, T. Suzuki, Y. Nosaka, N. Fujii. J. Membrane Sci., 86(1), 47-56 (1994) 69. ESR investigation on the surface transient in particulate photo-electrochemistry of CdS. - 10 - Yasuhiro Nakaoka, Norio Tohriiwa, Yoshio Nosaka Electrochemistry, 62(6), 528-529(1994) 68. Preparation of TiO2-SiO2 glass via sol-gel process containing a large amount of chlorine. M. Aizawa, Y. Nosaka, N. Fujii J. Non-Cryst. Solid, 143(1-2), 49-55 (1994) 67. Preparation of ZnS thin film from solution mist by laser irradiation. Y. Nosaka, K. Tanaka, N. Fujii, R. Igarashi J. Mater. Sci., 29, 376-379 (1994) 66. Two-dimensionally poled sol-gel processing of TiO2 film doped with organic compounds for nonlinearoptical activity. Yoshio Nosaka, Norio Tohriiwa, Takaomi Kobayashi, Nobuyuki Fujii Chem. Mater. 5(7), 930-932 (1993) 65. Monitoring of photoinduced surface reaction by using glass optical waveguides. Yoshio Nosaka, Susumu Matsui Electrochemistry, 61(7), 878-879 (1993) 64. Nonlinear optical susceptibility of ultrasmall CdS particles by means of the polarization-discriminated forward DFWM in a resonant region. Y. Nosaka, K. Tanaka, N. Fujii Appl. Phys. Lett., 62(16), 1863-1865 (1993) 63. Formation and photoreaction of PbI2, HgI2, and BiI3 layered ultra-small particles. Yoshio Nosaka, Toshiaki Fukuyama, Masato Horiuchi, Nobuyuki Fujii. Israel J. Chem., 33(1), 71-75 (1993) 62. Laser irradiation effect on poly(vinyl alcohol) films doped with nanometer-sized CdS particles: Ablation and third-harmonic generation. Yoshio Nosaka, Kazunori Tanaka, Nobuyuki Fujii J. Appl. Polym. Sci., 47(10), 1773-1780 (1993) 61. Size control of ultrasmall CdS particles in aqueous solution by using various thiols. Y. Nosaka, N. Ohta, T. Fukuyama, N. Fujii. J. Colloid, Interface Sci., 155(1), 23-29 (1993) 60. Colloidal CdS-Pt photocatalyst stabilized by viologen-pendant polymer for photoinduced electron transfer and hydrogen evolution. Y. Nosaka, K. Yamaguchi, A. Kuwabara, H. Miyama, R. Baba, A. Fujishima J. Photochem. Photobiol., A, Chem., 64(3), 375-382 (1992) 59. High temperature reaction of NO and H2 behind shock waves, N. Fujii, S. Murayama, T. Kobayashi, Y. Nosaka; Shock Waves, 741-746 (1992) 58. Silane coupling agents for photografting of vinyl monomer. preparation and properties of (N,N-dimethylamino) -dithiocarbamoyl-propyl(trimethoxy)silane. Takaomi Kobayashi, Syun Takahashi, Y. Nosaka, N. Fujii Chem. Lett. 1321-1324 (1992) 57. Immobilization of enzymes on electrostatic medium of positively charged dimethylamino nylon gel. T. Kobayashi, H. Miyama, S. Kawata, Y. Nosaka, N. Fujii J. Appl. Polym. Sci. 46, 2183-2188 (1992) 56. Platelet adhesion and plasma-protein adsorption on polyacrylonitrile containing ethyleneoxide side chains - 11 - Osamu Miyahara, Yoshio Nosaka, Kazunori Kataoka, Hajime Miyama Bull. Nagaoka Univ. Technol. 14, 29-33 (1992) 55. Permeation behavior of dextrans by charged ultrafiltration membranes of polyacrylonitrile photografted with electrolyte monomers. T. Kobayashi, K. Kumagai, Y. Nosaka, H. Miyama, N. Fujii, H. Tanzawa J. Appl. Polym. Sci. 43, 1037-1043 (1991) 54. Sol-gel processing for BaTiO3 and application to an AC powder electroluminescence device. Y. Nosaka, M. Jimbo, M. Aizawa, N. Fujii, R. Igarashi J. Mater. Sci. Lett. 10, 406-407 (1991). 53. FT-IR liquid attenuated total reflection study of titanium dioxide-silica sol-gel reaction M. Aizawa, Y. Nosaka, N. Fujii J. Non-Cryst. Solid, 128(1), 77-85 (1991). 52. Finite depth spherical well model for excited states of ultrasmall semiconductor particles. An application Y. Nosaka J. Phys. Chem. 95(13), 5054-5058 (1991) 51. Quenching of fluorescence of aromatic hydrocarbons by protons in caffeine-solubilized aqueous solution. Intra-complex energy transfer. Yoshio Nosaka, Akira Kira Photochem. Photobiol. 54(2), 157-162 (1991) 50. Preparation and application of semiconductor-polymer composites. Hajime Miyama, Hidekuni Yokoyama, Yoshio Nosaka J. Appl. Polym. Sci. 40, 2273-2283 (1990) 49. Photochemical kinetics of ultrasmall semiconductor particles in solution: effect of size on the quantum yield of electron transfer Y. Nosaka, N. Ohta, H. Miyama J. Phys. Chem. 94(9), 3752-3755(1990) 48. Preparation of hollow TiO2 fiber M. Aizawa, Y. Nakagawa, Y. Nosaka, N. Fujii, H. Miyama J. Non-Cryst. Solid, 124(1), 112-115 (1990). 47. Behavior of titanate coupling agent of TiO2 particle Mamoru Aizawa, Yoshio Nosaka, Hajime Miyama J. Colloid. and Interface. Sci. 139(2), 324-330 (1990). 46. Analysis for optical spectra of ultrasmall CdS semiconductor particles. Yoshio Nosaka, Nobuhiro Ohta, Hajime Miyama Electrochemistry, 57(12) 1163-1167 (1989) 45. 糸球体基底膜をモデルとした荷電型限外濾過膜による血しょう蛋白分離 三山 創、真名子裕俊、野坂芳雄、藤井信行、丹沢 宏 膜、14(1)45-49 (1989) 2+ 44. Continuous electrochemiluminescence of Ru(2,2’-bipyridine)3 in solution. R. Igarashi, Y. Nosaka, N. Fujii, H. Miyama Bull. Chem. Soc. Jpn. 62, 1405-1409 (1989) 43. Study of the thermal dissociation of N2O and CO2 using O(3P) atomic resonance absorption spectroscopy. - 12 - N. Fujii, S. Sagawai, T. Sato, Y. Nosaka J. Phys. Chem. 93(14), 5474-5478 (1989) and H. Miyama 2+ 42. Electrochemical continuous emission of Ru(2,2’-bipyridine)3 in polymer matrix. R. Igarashi, Y. Nosaka, N. Fujii, H. Miyama Electrochemistry, 57(4), 302-306 (1989) 41. Direct current electrochemiluminescence of Ru(bpy)32+ R. Igarashi, Y. Nosaka, H. Miyama, M. Kaneko, M. Yokoyama, J. Electrochem. Soc. 135(12), 2987-2990 (1988) 40. Charged ultrafiltration membrane for permeation of proteins H. Miyama, K. Tanaka, Y. Nosaka, N. Fujii, H. Tanzawa, S. Nagaoka, J. Appl. Polym. Sci. 36, 925-933 (1988). 39. Blood compatibility of polyacrylonitrile containing ethylene oxide and dimethylamino side chains. H. Miyama, K. Ikegami, Y. Nosaka, K. Kataoka, N. Yui, Y. Sakurai. Artificial Hart, 2, 57-61 (1988) 38. Negatively charged polyacrylonitrile graft copolymer membrane for permeation and separation of plasma proteins. Hajime Miyama, Hiromu Yoshida, Yoshio Nosaka, Hiroshi Tanzawa Makromol. Chem., Rapid Commun., 9, 57-61 (1988) 37. Graft copolymerization of methoxypolyethyleneglycol methacrylate onto polyacrylonitrile and evaluation of nonthrombogenicity of the copolymer. H. Miyama, H. Shimada, N. Fujii, Y. Nosaka, Y. Noishiki J. Appl. Polym. Sci. 35, 115-125 (1988) 36. Utilization of polymeric viologen as stabilizing agent and electron mediator for colloidal CdS-Pt photocatalyst. Y. Nosaka, K. Yamaguchi, H. Miyama Proc. Electrochem. Soc. 14. 67-72 (1988) 35. Preparation of size-controlled CdS colloids in water and their optical properties. Yoshio Nosaka, Katsuhiko Yamaguchi, Hajime Miyama, Hisaharu Hayashi, Chem. Lett. (4) 605-608 (1988). 34. Kinetics for electron transfer from laser-pulse irradiated colloidal semiconductor to adsorbed methylviologen. pulse-width dependence on the quantum yield. Y. Nosaka, M. A. Fox J. Phys. Chem. 92(7), 1893-1897 (1988) 33. Photoinduced electron transfer from colloidal cadmium sulfide to methylviologen: A picosecond transient absorption study. Yoshio Nosaka, Hajime Miyama, Mamoru Terauchi, Takayoshi Kobayashi. J. Phys. Chem. 92(1), 255-256 (1988). 32. Gain measurement of 10.6μm CO2 gasdynamic laser driven by high temperature reaction of CO-NO2-H2 in shock tube. N. Fujii, T. Tokuda, N. Sakatsume, Y. Nosaka, H. Miyama Bull. Nagaoka Univ. Technol. 10, 71-78 (1988) 31. 半導体粉末光触媒を用いたアミン合成とその反応機構 野坂芳雄、石川 彰、高津雅子、藤井信行、三山 創 日本化学会誌 (8) 1201-1207 (1988) 30. Photocatalytic production of amines from alcohols and aqueous ammonia. Hajime Miyama, Yoshio Nosaka, Takashi Fukushima, Hiroo Toi - 13 - J. Photochem. 36, 121-123 (1987) 29. Effect of charge of polymeric stabilizing agents on the quantum yield of photoinduced electron transfer from photoexcited colloidal semiconductors to adsorbed viologens. Y. Nosaka, M. A. Fox Langmuir, 3(6), 1147-1150 (1987) 28. Effect of light intensity on the quantum yield of photoinduced electron transfer from colloidal cadmium sulfide to methyl-viologen. Yoshio Nosaka, Marye Anne Fox J. Phys. Chem. 90(24), 6521-6522 (1986) 27. Effect of ionic polymer environment on the photoinduced electron transfer from zinc porphyrin to viologen Y. Nosaka, A. Kuwabara, H. Miyama J. Phys. Chem. 90(7), 1465-1470 (1986) 26. Immobilization of hydrogenase in nylon gel containing electron mediator and application to an artificial photosystem. Y. Nosaka, A. Kuwabara, T. Kobayashi, H. Miyama Biotechnol. Bioeng. 28, 456-460 (1986) 25. Separation mechanism of photoinduced electron-hole pair in metal-loaded semiconductor powders. Yoshio Nosaka, Yutaka Ishizuka, Hajime Miyama Ber. Bunsen-Ges. Phys. Chem. 90, 1199-1205 (1986) 24. Electrochemical behavior of azide ions on platinum electrode. Hajime Miyama, Yoshio Nosaka, Takashi Fukushima J. Electrochem. Soc. 133, 336-338 (1986) 23. Polymer viologen as a stabilizing agent of colloidal platinum for photoinduced electron transfer reactions. Yoshio Nosaka, Atsushi Kuwabara, Hajime Miyama J. Photochem. 32, 143-150 (1986) 22. Pulsed photoacoustic spectroscopy for powder suspension using a flash lamp. Yoshio Nosaka, Ryuji Igarashi, Hajime Miyama Anal. Chem. 57, 92-94 (1985) 21. Immobilization of enzyme on dimethylaminated nylon gels Hajime Miyama, Masashi Kawata, Yoshio Nosaka Biotechnol. Bioeng. 27, 1403-1410 (1985) 20. Immobilization of enzyme on nylon containing pendant quaternized amine groups. Hajime Miyama, Takaomi Kobayashi, Yoshio Nosaka Biotechnol. Bioeng. 26, 1390-1392 (1984) 19. Photocatalytic reactions of azide ions in platinized titanium dioxide powders in solution. Y. Nosaka, Yutaka Ishizuka, K. Norimatsu, H. Miyama Bull. Chem. Soc. Jpn. 57, 3066-3069 (1984) 18. The function of metals in metal-compounded semiconductor photocatalyst. Y. Nosaka, K. Norimatsu, H. Miyama Chem. Phys. Lett. 106, 128-131 (1984) 17. Effect of surface compound formation on the photo-induced reaction at polycrystalline TiO2 semiconductor electrodes. Yoshio Nosaka, Hiroshi Sasaki, Kohji Norimatsu, H. Miyama Chem. Phys. Lett. 105(4), 456-458 (1984) - 14 - 16. Effect of doping of ClO4- on the photoelectrochemical properties of polyacetylene. Yoshio Nosaka, Kohji Norimatsu, Hajime Miyama Chem. Lett. 801-804 (1983) 15. Synthesis of nylon containing pendant viologen groups and its evaluation as electron transfer catalyst. H. Miyama, Y. Nosaka, T. Kobayashi, A. Kuwabara J. Polym. Sci., Polym. Lett. Ed. 21, 945-949 (1983) 14. Immobilization of Urease on Synthetic Polymers. Hajime Miyama, Takaomi Kobayashi, Yoshio Nosaka Biotechnol. Bioeng. 24, 2757-2763 (1982) 13. Dynamic structure of pyrimidine-polyribonucleotides in solution. 1H NMR studies. A. Yamada-Nosaka, Y. Nosaka, K. Akasaka, H. Hatano Bull. Chem. Soc. Jpn. 55, 1983-1987 (1982) 12. Pulse radiolysis experiment on solute deuteration effects on the electron transfer rate in organic glasses at 77 K. A. Kira, Y. Nosaka, M. Imamura, T. Ichikawa J. Phys. Chem. 86, 1866-1868 (1982) 11. Pyrene-cation formation on reactions of pyrene triplet state with metal ions in caffeine-solubilized aqueous solution. Y. Nosaka, A. Kira, M. Imamura Bull. Chem. Soc. Jpn. 55, 1637-1638 (1982) 10. Reactions of excited singlet state of pyrene with metal ions. Intermolecular electron transfer in caffeinesolubilized aqueous solution. Y. Nosaka, A. Kira, M. Imamura J. Phys. Chem. 85, 1353-1358 (1981) 9. Positive charge scavenging by amines in pulse-irradiated sec-butyl chloride glasses at 77 K. rate on the ionization potential of amines. A. Kira, Y. Nosaka, M. Imamura J. Phys. Chem. 84, 1882-1886 (1980) Dependence of 8. Molecular complex of superoxide ion with maleic anhydride and its analogies. Yoshio Nosaka, Akira Kira, Masashi Imamura J. Am. Chem. Soc. 102, 1949-1953 (1980) 7. Positive charge transfer in irradiated sec-butyl chloride glassy solutions at 77 k as studied by the pulse radiolysis method. Yoshio Nosaka, Akira Kira, Masashi Imamura J. Phys. Chem. 83, 2273-2276 (1979) 6. Solubilization of 6-oxybenzo[a]pyrene radical by caffeine and DNA as studied by magnetic resonance. observation of inter-molecular charge transfer. K. P. Mishra, Y. Nosaka, K. Akasaka, H. Hatano Biochim. Biophys. Acta, 520, 679-687 (1978) 5. Interaction of benzo[a]pyrene and 6-oxybenzo[a]pyrene with caffeine. Structure of the complex as studied by nuclear magnetic resonance chemical shift and relaxation. Y. Nosaka, K. Akasaka, H. Hatano J. Phys. Chem. 82, 2829-2833 (1978) 4. Determination of structure of molecular complex in solution using unpaired electron-induced nuclear magnetic relaxation. application to adenosine-5'-monophosphate and n-methylphenazinium cation radical. - 15 - Yoshio Nosaka, Kazuyuki Akasaka, Hiroshi Hatano J. Am. Chem. Soc. 100, 706-713 (1978) 3. Electronic absorption spectra of some cation radicals as compared with UV photoelectron spectra. Tadamasa Shida, Yoshio Nosaka, Tatsuhisa Kato J. Phys. Chem. 82, 695-698 (1978) 2. Photoinduced isomerization of ion radicals. The conversion from 1,3-cyclohexa-diene to 1,3,5-hexatriene cation radicals. Tadamasa Shida, Tatsuhisa Kato, Yoshio Nosaka J. Phys. Chem. 81, 1095-1103 (1977) 1. Interaction of N-methylphenazinium radical cation with single-stranded poly-riboadenylic acid. H. H. Dearman, Y. Nosaka, K. Akasaka Biochem. Biophys. Res. Commun. 57, 1125-1129 (1974) 著書(B) 13. Identification and roles of the active species generated on various photocatalysts, Yoshio Nosaka, Atsuko Y. Nosaka, Photocatalysis and Water Purification, Chap 1. pp.3-24 Ed., P. Pichat. Wiley-VCH Verlag GmbH (2013) 12. Solar cells and photocatalysts, Yoshio Nosaka Comprehensive Nanoscience and Technology, Volume 1 pp.571-605 Ed., David Andrews, Nanomaterials Elsevier (2010) 11, Surface chemistry of TiO2 photocatalysis and LIF detection of OH radicals, Yoshio Nosaka Environmentally Benign Photocatalysts-Applications of Titanium Oxide-based Materials, Eds., P.V. Kamat, M. Anpo, Chap.8, pp205-215;Springer Publishers, Inc. (2010). 10. Detection of active oxygen species in TiO2 photocatalysis, Yoshio Nosaka Electroanalytical Chemistry Research Trends, pp.127-142 Ed, Hayashi, Nova Science Publishers, Inc (2009) 9. 「光触媒の反応機構」、 野坂芳雄 実力養成化学スクール 5 光触媒、3 章(43-62)、日本化学会編、丸善(2005) 8. 「入門光触媒」 野坂芳雄、野坂篤子、東京図書(2004) 256pp 7. Electronic states of chemically modified CdS nanoparticles, Yoshio Nosaka Single Organic Nanoparticles. Chap. 20, 253-264 Eds., H. Masuhara, H. Nakanishi, K. Sasaki, Springer Publishers Inc. (2003). 6. Photoelectrochemical reactions at the semiconductor microparticles, Yoshio Nosaka Photocatalysis, Chap 5, 69-86 Eds., M. Kaneko, I. Ohkura, Kodansha Springer, Tokyo, (2002) 5.“ 物理化学“ニューテック化学シリーズ、野坂芳雄、 - 16 - (共著)pp.32-33, 71-83, 150-160, 朝倉書店 (2000) 4. Ultrafine particles Akira Fujishima, Yoshio Nosaka Functionality of Molecular Systems, Vol,2, 69-74 Ed.,K. Honda, Springer-Verlag (1998). 3. Formation and characterization of CdS nanoparticles in aqueous solution, Y. Nosaka: Physics, Chemistry and Application of Nanostructures, pp. 145-152 Ed. V.E. Borisennko, A.B. Filonov, S.V. Gaponenko, V.S. Gurin, World Scientific Pub. (1997) 2. 半導体超微粒子―閉じ込められた電子が新しい材料を生む 野坂芳雄 ”驚きのマテリアル - 超・薄・微”pp.85-100, 大日本図書(1994) 1. エネルギーを支える化学、レーザーを支える化学 野坂芳雄 ”産業を支える化学” pp.45-61,内田老鶴圃 (1990) 総説等(R) 77. Spectroscopic investigation of the mechanism of photocatalysis, Y. Nosaka, M. Nishikawa, A. Y. Nosaka, Molecules, 19, 18248-18267 (Open Access) (2014/11) 76. OH ラジカル発生機構への TiO2結晶系の影響, 野坂芳雄、張 傑, 会報光触媒、44巻、16-21 (2014/7) 75.光触媒による環境浄化、 野坂芳雄、 光化学の事典 pp284-285 朝倉書店 (2014/6) 74. 酸化チタン等の光触媒作用における活性酸素種, 野坂 芳雄 触媒,56巻2号,102-107(2014) 73. 抗菌・抗ウイルス機能を発揮し、注目されている「光触媒材料」 野坂芳雄 マテリアルステージ、技術情報協会、Vol.13、No.10,71-73(2014) 72. 可視光応答型光触媒の反応機構 西川雅美、野坂芳雄 「抗菌・抗ウイルス材料の開発・評価と加工技術」第1章2節 p8-13,技術情報協会 71. 光触媒による酸化反応とOHラジカルの挙動、 野坂芳雄 会報光触媒、41巻、32-35(2013) 70. 環境浄化光触媒の反応メカニズム、 野坂芳雄 クリーンテクノロジー6,14-18(2013/6) 69. 半導体粒子のエネルギ―構造, - 17 - (2013/10/31) 野坂芳雄 電気化学便覧(電気化学会編)第6版,379-380,丸善出版(2013/1/15) 68. 酸化チタン上の光触媒活性種の検出 野坂芳雄 図解光触媒のすべて、橋本和仁、藤嶋昭監修(オーム社),p110-111(2012/8/20) 67. 光触媒の生体系分子への影響 野坂篤子、野坂芳雄、 会報光触媒、38,24-29(2012) 66. 新規可視光応答型酸化チタン光触媒の反応機構 西川雅美, 野坂芳雄 会報光触媒、37,34-37(2012) 65. ラジカル検出による可視光応答型半導体光触媒の反応機構解析 野坂芳雄、 「可視光応答型半導体光触媒」編集 橋本和仁、技術教育出版,263-272、2/27(2012) 64. 反応の物理化学的解析により環境浄化への貢献をめざす 野坂芳雄 クリ一ンテクノロジー、10月号, 67(2011) 63. 可視光応答型光触媒によるOHラジカルの発生 野坂芳雄, 張 傑 会報光触媒,35巻60-63(2011) 62. 可視光応答型光触媒の反応メカニズム =ルミノール化学発光による活性種の検出= 野坂芳雄 光アライアンス、5月号1-5 (2011) 61. 可視光応答型光触媒の反応機構 野坂芳雄 セラミックス誌 45(12),973-977(2010) 60. 鉄イオンを担持した酸化チタン光触媒の反応機構 野坂 芳雄, 高橋 慎一郎 会報光触媒 32巻,58-61 (2010/7) 59. 可視光応答型光触媒の反応メカニズム 野坂芳雄, 工業材料 58(8),31-35(2010) 58. 反応活性種の検出と可視光応答型光触媒の反応機構 野坂 芳雄 会報光触媒 31巻,40-45 (2010/4) 57. 光触媒機構 野坂芳雄 光科学研究の最前線2,p.193、強光子場科学研究懇談会編、12/21(2009) 56. 可視光応答型光触媒の反応過程の解析 野坂芳雄, 坂本穂高 会報光触媒、29号、32-37 (2009) 55. ヒト血清アルブミンとの相互作用下におけるベルベリン類の光増感反応と一重項酸素生成 - 18 - 平川和貴、野坂芳雄、平野 達 日本レーザー医学会誌, 30(2), 204 (2009/7/15) 54. 可視光型光触媒における反応活性種の検出 野坂芳雄 クリーンテクノロジー、日本工業出版,19(6),14-16 (2009) 53. 光触媒反応はどこまでわかったか? 野坂芳雄 『光と界面がおりなす新しい化学の世界』クバプロ,pp.65-71(2008/1) 52. 可視光型酸化チタン光触媒における活性酸素種の検出 野坂 芳雄, 平川 力 会報光触媒,26巻,pp.46-51(2008/7) 51. 酸化チタン光触媒における活性種の検出と挙動 野坂芳雄 光化学,38(3)196-199(2007) 50. 酸化チタンの熱処理による表面状態の変化と光触媒活性; 野坂 芳雄、野坂 篤子 会報光触媒,23,28-33(2007) 49. 酸化チタン光触媒では,なにが,どこで反応するか? 野坂芳雄 化学工業(7)539-544(2007) 48. 酸化チタン光触媒から放出される OH ラジカルの検出とその発生機構 野坂芳雄、村上能規 会報光触媒,20 巻、10-13(2006) 47. 水の光触媒による反応 野坂芳雄 「水―基礎・ヘルスケア・環境浄化・先端応用技術」457-471 エヌ・ティー・エス,(2006) 46. 時間分解核磁気共鳴法 野坂篤子,野坂芳雄 電気化学および工業物理化学,74(5),406-411(2006) 45. 光触媒の動作機構と期待される特性 村上能規、野坂芳雄 「可視光応答型光触媒」、5-17,シーエムシー(2005) 44. 光触媒活性種の解析 野坂芳雄 「可視光応答型光触媒」,268-279, シーエムシー(2005) 43. 発光および ESR による光触媒反応の中間体検出 野坂芳雄 「光触媒」、72-79(橋本和仁、大谷文章、工藤昭彦編)エヌ・ティー・エス,(2005) 42. 超微粒子半導体の光触媒化学 野坂芳雄 「光触媒」、143-149(橋本和仁、大谷文章、工藤昭彦編)エヌ・ティー・エス,(2005) 41. 光触媒機構 - 19 - 野坂芳雄 「光科学研究の最前線」,光子場科学研究懇談会発行、p53―54(2005) 40. 光触媒とテラヘルツ技術 野坂芳雄、野坂篤子 「テラヘルツテクノロジー」、430-442(エヌ・ティー・エス、2005) 39. 酸化チタン表面での吸着状態と光触媒反応機構との関連 野坂芳雄、チャン・フュー・チュング、野坂篤子 会報光触媒,17巻、38-41(2005) 38. 光触媒 野坂芳雄 「光技術総合事典」オプトロニクス社(2004) 37. 酸化チタン光触媒の反応機構に関する最近の話題 野坂芳雄、野坂篤子 日本学術振興会 第 166 委員会、第28回研究会資料、1-11(8 月、2004) 36.. 酸化チタン光触媒系における一重項酸素の発生 野坂芳雄 会報光触媒、14, 26-31 (2004) 35. 酸化チタン上の光触媒活性種の解析 野坂芳雄 「図解 光触媒のすべて」、142-143、工業調査会 (2003) 34. 酸化チタン光触媒表面の水に関する固体 NMR による研究 野坂芳雄、野坂篤子 会報光触媒、11、34-39 (2003) 33. 酸化チタン表面における光触媒反応化学種の挙動 野坂芳雄 光化学、34(1),14-21 (2003) 32 反応活性種の時空間解析による高機能光触媒の設計と課題 野坂芳雄 会報光触媒,7、16-19(2002) 31.2.酸化チタン上の光触媒活性種の解析 野坂芳雄,中村政嗣,平川 会報光触媒, 5、39-42 (2001) 力 31.多核金属錯体とクラスターの形成と性質 野坂芳雄 クラスターと超微粒子懇談会会報 Vol.4, No2、19-26,学会出版センター、(2001) 30. 半導体微粒子の電気化学 野坂芳雄 電気化学便覧、第5版、 丸善、 311-314(2000) 29. 酸化チタン光触媒入門講座テキスト 野坂芳雄 テクノシステム(株)pp.1-131(2000) 28.2 光触媒セラミックスのESRによる評価 - 20 - 野坂芳雄 高度技術者研修「最先端セラミックス材料の応用と解析評価」テキスト pp.21-40 (1998) 28. Formation of CdS Nanoparticles in Aqueous Solution and Electronic States of Quantized Semiconductor Particles. Y. Nosaka Current Topics in Colloid & Interface Science, Vol.1, 225-233 (1997) 27,半導体超微粒子触媒の光化学 野坂芳雄 「光化学エネルギ―変換」 93-104, アイピーシー (1997) 26.2 光が活躍する化学 野坂芳雄 公開講座「暮らしの中のおもしろ化学」テキスト pp.50-58 (1997) 26, 単一微粒子半導体の光誘起反応を目指して 野坂芳雄 レーザー研究,25巻11号 781-785 (1997) 25. サイズのそろった粒子をつくる 野坂芳雄 化学、第50巻 11号, 673-674 (1995) 24. 超微粒子半導体の物性と光電子移動 野坂芳雄 表面科学、第16巻 3号, 166-172 (1995) 23. 第10回太陽エネルギ―の化学的変換・貯蔵に関する国際会議報告 野坂芳雄 光化学、No, 19, 63-64 (1995) 22. 光触媒としての半導体超微粒子 野坂芳雄 触媒、第36巻 7号 507-514 (1994) 21. 半導体超微粒子の光触媒作用 野坂芳雄 化学総説, No. 23, 「光が関わる触媒化学」 62-68 (1994) 20. 半導体超微粒子はどこに位置するか? 野坂芳雄 バウンダリー、1月号、22-24 (1994) 19. マイクロ波放電により生成した励起一重項酸素流れにおけるハロゲン化銅の化学発光。 小林高臣、天兒洋一、塚田雅士、小林公、野坂芳雄、藤井信行 長岡技術科学大学研究報告、14号、35ー43 (1992) 18. 化合物半導体超微粒子の作成と表面状態の解析 野坂芳雄 大阪大学溶接工学研究所共同研究報告1991年度:24(1992) 17. Photocatalysts Using tunnel Structural Titanates and Ultrasmall Semiconductor Particles for Decomposition of Water. Yasunobu Inoue, Yoshio Nosaka Energy Conversion and Utilization with High Efficiency, Science and Technology for Energy Conversion, pp.207-212 (1992) - 21 - 16. エキシマーレーザーによる高分子材料の加工 野坂芳雄 長岡技術科学大学高度技術者研修テキスト, 13-18 (1991) 15. 半導体および銀超微粒子の物理化学 野坂芳雄 日本写真学会誌、54巻(5) 588-595 (1991) 14. 超微粒子 野坂芳雄 化学、第46巻 3号 158 (1991) 13. Shock Tube Study on Rate Constants of Elementary Reactions of H2-O2 System, N. Fujii, T. Sato, Y. Nosaka Proc. 1989 Natl. Symp. on Shock Wave Phenomena, pp.109-119 (1990) 12. Photovoltaic and Photocatalytic Properties of Ferroelectric Oxides Layer-Type Oxides and Ultrasmall Semiconductor Sulfides. Yasunobu Inoue, Yoshio Nosaka, Nobuyuki Fujii. Energy Conversion and Utilization with High Efficiency, Science and Technology for Energy Conversion, pp.293-298 (1990) 11. 半導体超微粒子の電子状態と光化学 野坂芳雄 光化学, Vol 14, 74-78 (1990) 10. Application of Sol-Gel Technique to the Preparation of AC Powder Electroluminescence Device. R. Igarashi, M. Jimbo, Y. Nosaka, H. Miyama, M. Yokoyama "Electroluminescence" Ed. S. Shionoya and H. Kobayashi, Springer-Verlag, pp. 342-345, (1989) 9. 生体腎の糸球体をモデルとする蛋白分離膜の合成と評価 野坂芳雄、三山創、藤井信行 日産科学研究財団、研究報告書, 12、pp 175-182 (1989) 8. レーザーによる新物質の合成 野坂芳雄 長岡技術科学大学公開講座テキスト, 66-74(1989) 7. Formation of Ultrafine Semiconductor Particles and Their Photo-responsive Characteristics in Polymer Film. Y. Nosaka, K. Yamaguchi, H. Yokoyama, H. Miyama "Photoresponsive Materials" Ed. S. Tazuke, Materials Research Society, Pittsburgh, 155-160 (1989) 6. Biotechnological Aspects of Artificial Photosynthesis. Y. Nosaka Photochem. Photobiol. 47 (6) 897-902 (1988). 5. Photocatalytic Reaction by Using Compound Semiconductor Catalysts. H. Miyama, N. Fujii, Y. Nosaka, Y. Inoue General Research on Solar Energy Conversion by Means of Photosynthesis, pp.201-220 (1987) 4. Photochemical Reaction by Using Compound Semiconductor Catalysts. H. Miyama, N. Fujii, Y. Nosaka, Y. Inoue. 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