101 ࢢ࣮࢚ࣜࣥࢿࣝࢠ࣮◊✲ᣐⅬ 102 ࢢ࣮࢚ࣜࣥࢿࣝࢠ࣮ࣉࣟࢪ࢙ࢡࢺ H25 ᖺㄽᩥࣜࢫࢺ ࢢ࣮ࣝࣉ㸯㸸⃝ᮌᐉᙪࠊᚨ⏣㇏ࠊᒾ⏣༤அ ۑM.Kim, M.J.Shin, D.Gwon, H.S.Ahn, S.N.Yi, P.S.Kim, S.C.Yoon, C.Lee, J.Park, K.Shin, D.H.Ha, and N.Sawaki,͆Development of the Hybrid Conjugated Polymer Solar Cell Based on GaN Quantum Dots͇,Jpn. J. Appl. Phys. 52 ᕳ 01AD02(4pp) ۑJ.Y.Kim, G.S.Lee, S.G.Jung, M.A.Park, M.J.Shin, S.N.Yi, M.Yang, H.S.Ahn, Y.M.Yu, S.W.Kim, H.S.Lee, H.S.Kang, H.S.Jeon, and N.Sawaki, ͆ Growth of GaN on Metallic Compound Graphite Substrate Using Hydride Vapor Phase Epitaxy͇, Jpn. J. Appl. Phys. 52 ᕳ 11NG03(4pp) ۑN.Sawaki, S.Ito, T.Nakagita, H.Iwata, T.Tanikawa, M.Irie, Y.Honda, M.Yamaguchi, and H.Amano㸪͆Defect generation and annihilation in GaN grown on patterned silicon substrate͇, Proc. of SPIE, 8625 ᕳ 86250K(6pp) ۑᚨ⏣㇏㸪ࠕGaN ୰ࡢⅬḞ㝗ホ౯ࠖ㸪ᛂ⏝≀⌮ ➨ 82 ᕳ ➨ 10 ྕ 862-865 ۑS.Ito, T.Nakagita, H.Iwata, N.Sawakui, M.Irie, Y.Honda, M.Yamaguchi, and H.Amano㸪͆TEM analyses of GaN grown with AlInN intermediate layer on Si substrate͇ ISPlasama 2013, Nagoya Univ. Jan.28-Feb.1 P3056B ۑK.Hagiwara, N.Sawaki, K.Yamashita, T.Tanikawa, Y.Honda, M.Yamaguchi, and H.Amano㸪 ͆FTIR analyses of carbon doped (1-101)GaN grown on a patterned Si substrate͇ ISPlasma 2013, Nagoya Univ. Jan.28-Feb.1, P3072B ۑT.Nakagita, S.Ito, H.Iwata, N.Sawaki, T.Tanikawa, Y.Honda, M.Yamaguchi, and H.Amano㸪 ͆Defect structure in a (1-101)GaN grown on a patterned (001)Si substrate͇ISPlasma 2013, Nagoya Univ. Jan.28-Feb.1, P3073B ۑT.Fujisawa and N.Sawaki㸪͆A high efficiency InGaN solar cell with graded composition p-InGaN top layer͇, ISPlasma 2013, Nagoya Univ. Jan.28-Feb.1, P3087B ۑJ.Kim, G.Lee, S.Jung, S.Bae, M.Park, M.Shin, S.Yi, M.Yang, H.Ahn, Y.Yu, S.Kim, H.Lee, H.Kang, and N.Sawaki, ͆Growth of GaN on metallic compound graphite substrate using HVPE͇, ISPlasma 2013, Nagoya Univ. Jan.28-Feb.1, P3067B ۑD.Gwon, M.Shin, M.Kim, G.Lee, H.Ahn, S.Yi, S.Yoon, C.Lee, D.Ha, and N.Sawaki, ͆Characteristic analysis of hybrid photovolataic devioces with different surface structures of GaN͇ ISPlasma 2013, Nagoya Univ. Jan.28-Feb.1, P3080B ۑM.Shin, M.Kim, D.Gwon, G.Lee, H.Ahn, S.Yi, D.Ha, and N.Sawaki, ͆Synthesis of hybrid heterojunction based on GaN nanostructures with optimized thickness of organic layer͇, ISPlasma 2013, Nagoya Univ. Jan.28-Feb.1, P3081B ۑS.Jung, G.Lee, S.Bae, H.Jeon, M.Shin, S.Yi, M.Yang, H.Ahn, Y.Yu, S.Kim, H.Kang and N.Sawaki, ͆Characterization of SAG-GaN LED grown by HVPE method͇, ISPlasma 2013, Nagoya Univ. Jan.28-Feb.1, P3086B 103 ۑG.Lee, S.Jung, S.Bae, H.Jeon, M.Shin, S.Yi, M.Yang, H.Ahn, Y.Yu, S.Kim, H.Kang, and N.Sawaki, ͆Ohmic contact method of vertical GaN LED using pocket type shadow mask͇, ISPlasma 2013, Nagoya Univ. Jan.28-Feb.1, P3088B ۑM.Park, S.Bae, G.Lee, S.Jung, J.Kim, M.Shin, S.Yi, M.Yang, H.Ahn, Y.Yu, S.Kim, H.Kang, and N.Sawaki, ͆Fabrication and characterization of single chip with multi-GaN LED͇ ISPlasma 2013, Nagoya Univ. Jan.28-Feb.1, P3089B ۑS.Ito, T.Nakagita, S.Kawakita, H.Iwata, N.Sawaki, M.Irie, Y.Honda, M.Yamaguchi, and H.Amano, ͆Growth of High Quality GaN on (111)Si using AlN:In Nucleation Layer͇, 6th Asia-Pacific Workshop on Widegap Semiconductors, May 12-15, 2013, Taipei, WA1-4, p.20 ۑT.Nakagita, S.Ito, H.Iwata, N.Sawaki, T.Tanikawa, Y.Honda, M.Yamaguchi, and H.Amano, ͆Coalescence and Generation of Stacking Faults in a (1-101)GaN Grown on a Patterned (001)Si Substrate͇, 6th Asia-Pacific Workshop on Widegap Semiconductors, May 12-15, 2013, Taipei, PM16, p.79 ۑN Sawaki, ͆Epitaxial relationship and nano-structures at GaN/Si interface͇ EMN2013 Openaccess 2013, Chengdu, Oct. 21-27, C08, Oct 22 ۑYutaka Tokuda, ͆DLTS Studies of Point Defects in MOCVD n-GaN͇,The 8th International Conference on Silicon Epitaxy and Heterostructures (ICSI-8) and the 6th International Symposium on Control of Semiconductor Interfaces (ISCSI-VI), Fukuoka, (2013) B4-2 ۑS.Ito, T.Nakakita, N.Sawaki, M.Irie, Y.Honda, M.Yamaguchi, and H.Amano, ͆Nature of Yellow Luminescence Band in High Quality GaN͇, ISPlasma2014 (Meijo University 4.March 2014) 04aC02O ۑK.Aaki, K.Suzuki, N.Sawaki, K.Yamashita, Y.Honda, and H.Amano, ͆FTIR spectra in a heavily carbon doped (0001)GaN͇, ISPlasma2014 (Meijo University 4.March 2014) 06aP29 ۑM.Yoshimoto, K.Miyamoto, Y.Tokuda, T.Katuno, H.Ueda, T.Kachi, ͆Characterization of traps in AlGaN/GaN HEMTs by deep level transient spectroscopy͇, 6th International Symposium on Advanced Plasma Science and its Application for Nitrides and Nanomaterials/7 th International Conference on Plasma-Nano Technology and Science, Nagoya, 06aP30. ۑH.Iwata, M.Takagi, and Y.Tokuda, ͆New Aproach for Nano Fablication on the surface of Silicon with Ion Implantation and Locally Focused Heating͇ 6th Inter. Symp. on Advanced Plasma Science and its Applications for Nitrides and Nanomaterials (ISPlasma2014), 05pP64, Nagoya ۑ୰ኴᖹ㸪ఀ⸨⩧ᝅ㸪ᒾ⏣༤அ㸪⃝ᮌᐉᙪ㸪ᮏ⏣ၿኸ㸪ᒣཱྀ㞞ྐ㸪ኳ㔝ᾈ㸪༙͆ᴟᛶ (1-101)GaN ࠾ࡅࡿ✚ᒙḞ㝗ࡢࡿ⯙࠸͇㸪㟁Ẽ㛵ಀᏛᮾᾏᨭ㒊Ꮫ⾡ㅮ₇ࠊ㟼ᒸ Ꮫ 2013, Sept.25, B4-㸯 ۑఀ⸨⩧ᝅ㸪୰ኴᖹ㸪⃝ᮌᐉᙪ㸪ධỤᑗႹ㸪ᮏ⏣ၿኸ㸪ᒣཱྀ㞞ྐ㸪ኳ㔝ᾈ㸪͆Si ᇶᯈୖ GaN/AlInN ࢚ࣆࢱ࢟ࢩࣕࣝ⭷ࡢ PL ࢫ࣌ࢡࢺ͇ࣝ㸪㟁Ẽ㛵ಀᏛᮾᾏᨭ㒊Ꮫ⾡ㅮ₇㸪 104 㟼ᒸᏛ 2013, Sept.25, B4-2 ۑᐑᮏ୍㍤㸪ᚨ⏣ ㇏㸪͆Ⅳ⣲ࢻ࣮ࣉࡉࢀࡓ GaN ᇶᯈୖ MOCVD n-GaN ୰ࡢࢺࣛࢵࣉホ ౯͇㸪2014 ᖺ㸦ᖹᡂ 26 ᖺ㸧➨ 61 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇ ۑ⏣ஓ㸪 㧗ᮌㄔ㸪 ᯇᐊோ㸪 ᒾ⏣༤அ㸪 ᆏබᜤ㸪͆Si ༢⤖ᬗࡢ᭤ࡆ࠾ࡼࡧ⑂ປᣲ ື͇㸪2014 ᖺᗘ⢭ᐦᕤᏛᮇᏛ⾡ㅮ₇ㅮ₇ㄽᩥ㞟㸪pp.355-336 ۑỈὶ୍ᖹ㸪㧗ᮌㄔ㸪 ᯇᐊோ㸪 ᒾ⏣༤அ㸪ᆏබᜤ㸪͆✀ࠎࡢ⎔ቃୗ࠾ࡅࡿ Si ༢⤖ ᬗࡢ࣐ࢡࣟࢺࣛ࣎ࣟࢪ࣮͇㸪2014 ᖺᗘ⢭ᐦᕤᏛᮇᏛ⾡ㅮ₇ㅮ₇ㄽᩥ㞟㸪 pp.921-922 ࢢ࣮ࣝࣉ㸰㸸ⴠྜ㙠ᗣࠊྂᶫ⚽ኵࠊᒣ⏣ㄭࠊὠ⏣⣖⏕ࠊ᳃❳㞝 ۑShizuyasu Ochiai and Santhakumar Kannappan㸪͆FABRICATION OF ORGANIC THIN FILMS FOR SOLAR CELL APPLICATIONS͇,LAP LAMBERT Academic Publishing (2013) 1-85 ۑShizuyasu Ochiai, Shogo Imamura, Kannappan Santhakumar, Palanisamy Kumar, Paik-Kyun Shin㸪͆Characteristics and the Effect of Additives on the Nanomorphology of PTB7/PC71BM composite films䇿,Current Applied Physics, 13, Supplement 2, 20 (2013) S58–S63 ۑ⏣ 㐩ஓ㸪 ὠ⏣ ⣖⏕㸪 ᒣ⏣ ㄭ㸪ⴠྜ 㙠ᗣ㸪͆ࣇ࢙࣒ࢺ⛊࣮ࣞࢨ࣮ࡼࡿኴ㝧㟁ụ ⏝᭷ᶵⷧ⭷ࡢຍᕤ͇㸪࣮ࣞࢨ࣮◊✲㸪Vol.41, No.5(2013) pp.356-360 ۑIm-Jun No, Paik-Kyun Shin, Santhakumar Kannappan, Palanisamy Kumar & Shizuyasu Ochiai㸪 ͆Fabrication and Characteristics of Organic Thin-film Solar Cells with Active Layer of Interpenetrated Hetero-junction Structure͇ Applied Physics Research, 4, No. 4, (2012) 83-90 ۑSanthakumar Kannappan, Kumar Palanisamy,Jiro Tatsugi, Paik-Kyun Shin and Shizuyasu Ochiai, ͆Fabrication and characterizations of PCDTBT: PC71BM bulk heterojunction solar cell using air brush coating method͇,J Mater Sci (2013) 48:2308–2317 ۑIm-Jun No, Paik-Kyun Shin, Santhakumar Kannappan, Kumar Palanisamy, and Shizuyasu Ochiai, “Performance of Bulk Heterojunction Solar Cells Fabricated Using Spray-Deposited Poly[[9-(1-octylnonyl)-9H-carbazole-2,7-diyl]-2,5-thiophenediyl-2,1,3-benzothiadiazole-4,5-thi ophenediyl-2,1,3-benzothiadiazole-4,7-diyl-2,5-thiophenediyl]/[6,6]-Phenyl C71 Butyric Acid Methyl Ester Blend Active Layers” International Journal of Photoenergy Volume 2013, (2013) Article ID 202467, 5 pages ۑTatsuo Mori, Xiaoling Ma, Hideo Furuhashi, Takao Nishikawa,͆Control of Open Voltage of Organic Photovoltaic Cells Using Fluorinated Self-Assembled Monolayer͇J. Photopolym. Sci. Technol., 26,pp. 377-381 ۑPalanisamy Kumar, Santhakumar Kannappan, Paik-Kyun Shin and Shizuyasu Ochiai,͆High Performance Organic Solar Cells based on Low Band Gap poly-ThienothiopheneBenzodithiophene Polymer and Fullerene Composite Prepared by Airbrush Spray Coating 105 Technique͇ Journal of the Korean Physical Society, Vol. 62, Issue 8, (2013) pp 1169-1175 ۑMasaya Miwaa and Hideo Furuhashi, ͆Morphologies of P3HT and P3HT/PCBM Thin Films Prepared by Drop Casting and Spin Coating͇ Advanced Materials Research Vols. 718 - 720 (2013) pp.3-6 ۑPalanisamy Kumar, Kannappan Santhakumar, Jiro Tatsugi, Paik-Kyun Shin, and Shizuyasu Ochiai, Comparison of polymer organic solar cells using highly conductive modified PEDOT:PSS films prepared through spin and spray coating method͇ Jpn. J. Appl. Phys. 53, (2014) 01AB08 ۑPalanisamy KUMAR, Kannappan SANTHAKUMAR, Paik-Kyun SHIN,Shizuyasu OCHIAI, ͆ Improving the Photovoltaic Parameters of Organic Solar Cell using Soluble Copper Phthalocyanine Nanoparticles as a Buffer LayerJpn. J. Appl. Phys. 53, (2014) 01AB06 ۑPaik-Kyun Shin, Kannappan Santhakumar, Kumar Palanisamy, Abhirami Kumar and Shizuyasu Ochiai, ͆Effects of Organic Solvents for Composite Active Layer of PCDTBT/PC71BM on Characteristics of Organic Solar Cell Devices͇ International Journal of Photoenergy 2014, (2014), Article ID 786468, 8 pp ۑPalanisamy Kumara, Abhirami Kumara, Kannappan Santhakumara, Paik-Kyun Shinb, and Shizuyasu Ochiai,͆High performance PEDOT:PSS films prepared through a treatment with fluoro compounds and their application in polymer solar cells͇,Proc. of SPIE Vol. 8830 (2014) 88301Q-1 doi: 10.1117/12.2023460 ۑPalanisamy Kumara, Kannappan Santhakumara, Jiro Tatsugib, Paik-Kyun Shinc and Shizuyasu Ochiai, ͆Fabrication and Characterizations of PBDTTPD: PC71BM Bulk Heterojunction Solar Cell using Air Brush Coating Method͇ Proc. of SPIE Vol. 8830 (2014) 88301R-1 ۑHee-Sung Kim, Boong-Joo Lee, Paik-Kyun Shin, and Shizuyasu Ochiai,͆Floating-gate type organic memory device with organic insulator film of plasma polymerized styrene͇, Jpn. J. Appl. Phys.,53, (2014) 031602 ۑPalanisamy Kumar, Abhirami Kumar, Paik-Kyun Shin, and Shizuyasu Ochiai,͆Influence of solvent treatment with fluoro compounds on the properties of PEDOT:PSS polymer as a hole transport layer in polymer solar cells͇Journal of Photonics for Energy 4, (2014) 043097 ۑYoshinori Kobayashi, Hiroki Akenaga, Yoshiyuki Seike, Keiji Miyachi, Shizuyasu Ochiai, Takuya Morimoto, Xiaoling Ma, Takao Nishikawa, Tatsuo Mori, ͆A Study of the Spray Coating for Organic Photovoltaic Cells͇, Seventh International Conference on Molecular Electronics and Bioelectronics, Fukuoka, Japan, Mar. 17-19 (2013) E-03 ۑNorio Tsuda, Tatsuya Kurata, Shusuke Ono, Jun Yamada, Shizuyasu Ochiai,͆Femtosecond laser processing of organic thin film͇,31th International Conference on Phenomena in IonizedGases, 4-035, July 14-19, 2013 Granada Congress Centre, Granada, Spain ۑTatsuo Mori, Sang-Geon Park, Haiying Wang,͆Effect of a Co-evaporation Layer of MoOx and 106 a-Naphthyl Diamine Derivative for Organic Light-Emitting Diode͇, The 4th Int’l Symp. On Organic and inorganic Electronic Materials and Related Nanotechnologies, Kanazawa, Japan, June 17-20, P2-9 ۑTatsuo Mori, Xiaoling Ma, Hideo Furuhashi, Takao Nishikawa,͆Control of Open Voltage of Organic Photovoltaic Cells Using Fluorinated Self-Assembled Monolayer͇, 30th Int’l Conf. Photopolym Sci. & Techno., Chiba, Japan, 25-28, June, B3-01 ۑTatsuo Mori, ͆ Application of Fluorinated Self-Assembled Monolayer to Organic Light-Emitting Diodes & Interface Mechanism (Invited)͇,Int’l Conf. on Flexible and Printed Electronics (ICFPE-2013) Jeju, Korea, Sept. 10-13, G03-I04 ۑTatsuo Mori, Yoshinori Kobayashi, Hiroki Akenaga, Yoshiyuki Seike, Keiji Miyachi, Takao Nishikawa, ͆ Fabrication of Organic Photovoltaic Cells using Various Spray Coating ͇ , Photovoltaic Science and Engineering Conference (PVSEC-23), Taipei, Taiwan, Oct. 28-Nov. 1, 5-O-18 ۑShusuke Ono, Norio Tsuda, Jun Yamada, Shizuyasu Ochiai,͆Properties of Femtosecond Laser Ablation Plasma for Organic Thin Film Spin Coated on Grass Substrate͇,8th International Conference on Reactive Plasmas and 31st Symposium on Plasma Processing, 4P-PM-S11-P40, February 4-7, 2014, Fukuoka, Japan ۑఀ⸨ඔ୍㸪ⴠྜ㙠ᗣ㸪Shin Paik-Kyun,㸪͆ῧຍࢆ⏝࠸࡚స〇ࡋࡓάᛶᒙࢆ᭷ࡍࡿ᭷ᶵ ⷧ⭷ኴ㝧㟁ụࡢ≉ᛶ͇㸪28p-G13-3͇, 2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮ᏛᏘ Ꮫ⾡ㅮ₇, 28p-G13-3 ۑฟཱྀ㞝୍㸪Shin Paik-Kyun㸪ⴠྜ㙠ᗣ㸪͆ࢫࣉ࣮ࣞࢥ࣮ࢺἲࢆ⏝࠸ࡓ㔜άᛶᒙࢆ᭷ࡍ ࡿ᭷ᶵⷧ⭷ኴ㝧㟁ụࡢ≉ᛶホ౯͇㸪29a-G14-4͇, 2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀ ⌮ᏛᏘᏛ⾡ㅮ₇, 29a-G14-4 ۑᒣᮏᆅ㸪ⴠྜ㙠ᗣ㸪͆㟼㟁ሬࢫࣉ࣮ࣞࢥ࣮ࢺἲࢆే⏝ࡋ࡚స〇ࡋࡓάᛶᒙࢆ᭷ࡍ ࡿ᭷ᶵⷧ⭷ኴ㝧㟁ụࡢ≉ᛶ͇㸪29a-G14-5㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮Ꮫ ᏘᏛ⾡ㅮ₇㸪29a-G14-5 ۑᑠᯘ⩏㸪᫂Ọ⿱ᶞ㸪Ύᐙၿஅ㸪ᐑᆅィ㸪ⴠྜ㙠ᗣ㸪᳃ᮏᣅஓ㸪㯞ᬡு㸪すᕝᑦ⏨㸪 ᳃❳㞝㸪͆᭷ᶵⷧ⭷ኴ㝧㟁ụ࠾ࡅࡿࢫࣉ࣮ࣞᡂ⭷ἲ㛵ࡍࡿ◊✲͇㸪29p-G18-12㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇㸪29p-G18-12 ۑᑠᯘ⩏㸪᫂Ọ⿱ᶞ㸪Ύᐙၿஅ㸪ᐑᆅィ㸪ⴠྜ㙠ᗣ㸪᳃ᮏᣅஓ㸪㯞ᬡு㸪すᕝᑦ⏨㸪 ᳃❳㞝㸪͆᭷ᶵⷧ⭷ኴ㝧㟁ụ࠾ࡅࡿࢫࣉ࣮ࣞᡂ⭷ἲ㛵ࡍࡿ◊✲ϩ͇㸪29p-G18-13㸪 2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇㸪29p-G18-13 ۑKumar Palanisamy㸪Santhakumar Kannappan㸪Shin Paik-Kyun㸪Ochiai Shizuyasu㸪͆᭷ᶵኴ 㝧㟁ụࡢ≉ᛶࣃ࣓࣮ࣛࢱ࣮ཬࡰࡍ͇㸪ZnO-PVP 」ྜⷧ⭷⭷ࡢຠᯝ㸪29p-G18-15㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇㸪28p-G13-3 ۑKannappan Santhakumar㸪Kumar Palanisamy㸪Jiro Tatsugi㸪Shin Paik-Kyun㸪Shizuyasu Ochiai㸪 107 ͆ᨵ㉁ࡉࢀࡓ PEDOT:PSS ⭷ࢆ⏝࠸ࡓ᭷ᶵኴ㝧㟁ụࡢ≉ᛶࣃ࣓࣮ࣛࢱ࣮ࡢホ౯͇㸪 29p-G18-16㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇㸪29a-G14-4 ྜⴠ ۑ㙠ᗣ㸪Santhakumar Kannappan㸪͆PCDTBT/PC71BM ΰྜ⁐ᾮࡼࡾస〇ࡉࢀࡓάᛶ ᒙࢆ⏝࠸ࡓ᭷ᶵኴ㝧㟁ụࡢ≉ᛶࡢホ౯͇㸪OME2012-85㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇ ᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇, 29a-G14-5 ۑ⏣㐩ஓ㸪ὠ⏣⣖⏕㸪ᒣ⏣ ㄭ㸪ᮡᒣ 㸪ᰙᮌ 㥴㸪ⴠྜ㙠ᗣ㸪͆ࣇ࢙࣒ࢺ⛊࣮ࣞࢨ ࣮↷ᑕࡼࡿ᭷ᶵⷧ⭷ຍᕤホ౯͇㸪D7-30aII-9㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀ ⌮ᏛᏘᏛ⾡ㅮ₇㸪29p-G18-12 ۑᑠ㔝⚽㸪ὠ⏣⣖⏕㸪ᒣ⏣ ㄭ㸪ⴠྜ㙠ᗣ㸪͆᭷ᶵⷧ⭷ୖ⏕ᡂࡉࢀࡿ࣮ࣞࢨ ࣈࣞ ࣮ࢩࣙࣥࣉࣛࢬ࣐ࡢ≉ᛶ͇㸪D2-9㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮ᏛᏘᏛ ⾡ㅮ₇㸪29p-G18-13 ۑᒣᮏᆅ㸪ⴠྜ㙠ᗣ㸪͆ΰྜ᭷ᶵ⁐፹ࢫࣉ࣮ࣞࢥ࣮ࢺἲࢆ⏝࠸࡚స〇ࡋࡓάᛶᒙࢆ᭷ ࡍࡿ᭷ᶵⷧ⭷ኴ㝧㟁ụࡢ≉ᛶホ౯͇㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 74 ᅇᛂ⏝≀⌮Ꮫ⛅Ꮨ Ꮫ⾡ㅮ₇ࠊ⚄ዉᕝᕤ⛉Ꮫ㸪[16a-C7-4] (9-2013) ۑఀ⸨ඔ୍㸪ⴠྜ㙠ᗣ㸪͆ᵝࠎ࡞ῧຍࢆ᭷ࡍࡿ」ྜ⁐ᾮࢆ⏝࠸࡚స〇ࡋࡓάᛶᒙࢆ᭷ࡍ ࡿ᭷ᶵⷧ⭷ኴ㝧㟁ụࡢ≉ᛶホ౯͇㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 74 ᅇᛂ⏝≀⌮Ꮫ⛅ᏘᏛ ⾡ㅮ₇㸪⚄ዉᕝᕤ⛉Ꮫ㸪[16p-C5-6] (9-2013) ۑฟཱྀ㞝୍㸪ⴠྜ㙠ᗣ㸪͆ಟ㣭ࡉࢀࡓ HTL ୖ〇⭷ࡉࢀࡓከᒙࡢάᛶᒙࢆ᭷ࡍࡿ᭷ᶵⷧ ⭷ኴ㝧㟁ụࡢ≉ᛶホ౯͇㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇㸪 ⚄ዉᕝᕤ⛉Ꮫ㸪[17a-C5-6] (9-2013) ۑKannappan Santhakumar㸪Palanisamy Kumar㸪Jiro Tatsugi㸪Paik-Kyun Shin㸪Shizuyasu Ochiai, ͆Comparison of PBDTTPD: PC71BM Bulk Heterojunction Solar Cells prepared through spin and spray coating method͇,2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇㸪 ྠᚿ♫Ꮫி⏣㎶࢟ࣕࣥࣃࢫ㸪[19p-C6-16] (9-2013) ۑKumar Palanisamy㸪Kannappan Santhakumar㸪Paik-Kyun Shin㸪Shizuyasu Ochiai,͆High Conductive PEDOT:PSS Polymer Films Optimized by Solvent Post-treatment as Transparent Electrode of Organic Solar Cells͇㸪2013 ᖺ㸦ᖹᡂ 25 ᖺ㸧➨ 60 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ ㅮ₇㸪ྠᚿ♫Ꮫி⏣㎶࢟ࣕࣥࣃࢫ㸪[19p-C6-17] (9-2013) ۑ㢦ᨻᮽ㸪㍈Ṋᘯ㸪᳃ ❳㞝㸪͆ࢽࢵࢣ࣓ࣝࢵࢩࣗᑐᴟࢆ⏝࠸ࡓࢱࣥࢹ࣒ᆺⰍ⣲ቑឤኴ 㝧㟁ụ㛵ࡍࡿ◊✲͇㸪㟁Ꮚሗ㏻ಙᏛᢏ⾡◊✲ሗ࿌㸪OME2012-86 ۑගᓮⱱᯇ㸪す㞞ே㸪すᕝᑦ⏨㸪᳃ ❳㞝㸪͆᭷ᶵ EL ⣲Ꮚ࠾ࡅࡿ࢟ࣕࣜࣂࣛࣥࢫ ࡢホ౯͇㸪➨ 74 ᅇᛂ⏝≀⌮ᏛᏛ⾡ㅮ₇,17p-P4-5㸪ྠᚿ♫Ꮫ ࢺࣥࢭࣥࣅ࣭ࢮ࢚ ۑ㸪㢦 ᨻᮽ㸪 ᳃ ❳㞝㸪͆Study on Quasi-Solid Tandem Dye-Sensitized Solar Cell Using Metal Mesh͇㸪➨ 74 ᅇᛂ⏝≀⌮ᏛᏛ⾡ㅮ₇㸪18a-P6-19㸪ྠᚿ♫ Ꮫ ۑ᳃ ❳㞝㸪͆ࣇࢵ⣲ࢩ࣮ࣟࣝ⣔⮬ᕫ⤌⧊༢ศᏊ⭷ࡢ᭷ᶵ EL ⣲Ꮚࡢᛂ⏝⏺㠃⌧ 108 ㇟㸦ᣍᚅㅮ₇㸧͇㟁Ꮚሗ㏻ಙᏛᢏ⾡◊✲ሗ࿌㸪OME-2013-49 ۑගᓮⱱᯇ㸪㞾ᑬ㸪ྂᶫ⚽ኵ㸪すᕝᑦ⏨㸪᳃ ❳㞝㸪͆ࣇࢵ⣲⮬ᕫ⤌⧊༢ศᏊ⭷ࡢ ▷⤡㜼Ṇຠᯝ͇➨ 61 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇㸪17a-PG1-8㸪㟷ᒣᏛ㝔Ꮫ ࢺࣥࢭࣥࣅ࣭ࢮ࢚ ۑ㸪᪥᪉㈗๎㸪ྂᶫ⚽ኵ㸪᳃ ❳㞝㸪 ͆Study on Electrolyte Dye-Sensitized Solar Cell Using THF and CHCl3͇㸪➨ 61 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇㸪18a-PA6-5㸪 㟷ᒣᏛ㝔Ꮫ ۑPalanisamy Kumar㸪Kumar Abhirami㸪Paik-Kyun Shin㸪ShizuyasuOchiai, ͆Influence of solvent effect on silole-containing polymer based bulk heterojunction organic solar cells͇㸪 2014 ᖺ㸦ᖹ ᡂ 26 ᖺ㸧➨ 61 ᅇᛂ⏝≀⌮ᏛᏘᏛ⾡ㅮ₇㸪㟷ᒣᏛ㝔Ꮫ┦ᶍཎ࢟ࣕࣥࣃࢫ㸪 [18a-PG3-9](3-2014) ۑఀ⸨ඔ୍㸪ⴠྜ㙠ᗣ㸪͆PTB7/PC71BM DIO 3vol%ῧຍࡋ࡚స〇ࡋࡓάᛶᒙ㟁Ꮚ㍺ ㏦ᒙ(PFE)ࢆ᭷ࡍࡿ᭷ᶵኴ㝧㟁ụࡢᛶ⬟ホ౯͇2014 ᖺ㸦ᖹᡂ 26 ᖺ㸧➨ 61 ᅇᛂ⏝≀⌮ ᏛᏘᏛ⾡ㅮ₇㸪㟷ᒣᏛ㝔Ꮫ┦ᶍཎ࢟ࣕࣥࣃࢫ㸪[18p-E9-20] (3-2014) ۑPalanisamy Kumar㸪Kumar Abhirami㸪Paik-Kyun Shin㸪Shizuyasu Ochiai,͆Improving the device parameters of PCDTBT:PC71BM based organic solar cells using copper phthalocyanine nanoparticle as hole collecting buffer layer͇㸪 2014 ᖺ㸦ᖹᡂ 26 ᖺ㸧➨ 61 ᅇᛂ⏝≀⌮Ꮫ ᏘᏛ⾡ㅮ₇㸪㟷ᒣᏛ㝔Ꮫ┦ᶍཎ࢟ࣕࣥࣃࢫ㸪 [18p-E9-21] (3-2014) ۑᑠ㔝⚽㸪ὠ⏣⣖⏕㸪ᒣ⏣ ㄭ㸪 ⴠྜ㙠ᗣ㸪͆᭷ᶵⷧ⭷ୖࣇ࢙࣒ࢺ⛊࣮ࣞࢨࡼࡗ ࡚ㄏ㉳ࡉࢀࡓࣈ࣮ࣞࢩࣙࣥࣉࣛࢬ࣐ࡢศගィ 㸪D7-22aϯ-6͇㸪2014 ᖺ㸦ᖹᡂ 26 ᖺ㸧 ࣮ࣞࢨ࣮ᏛᏛ⾡ㅮ₇➨ 34 ᅇᖺḟ㸪ᕞᅜ㝿㆟ሙ㸪D7-22aϯ-6 䜾䝹䞊䝥䠏䠖⃝㻌 ၿ⨾䚸୰ᓥ㻌 ๛䚸ᒣ⏣㻌 ⱥ䚸㻌 ⣒ᘯ⾜㻌 ۑNaoki OHMI, Tsuyoshi NAKAJIMA, Yoshimi OHZAWA, Meiten KOH, Akiyoshi YAMAUCHI, Michiru KAGAWA and Hirokazu AOYAMA, ͆ Effect of organo-fluorine compounds on the thermal stability and electrochemical properties of electrolyte solutions for lithium ion batteries͇,J. Power Sources, Vol.221, pp.6-13 ۑTsuyoshi NAKAJIMA,͆Preparation of carbon-fluorine compounds and fluoride or oxide fluoride-intercalated graphites͇, Herbert W. ROESKY (Ed.), “Efficient Preparation of Fluorine Compounds”, John Wiley & Sons, Inc., Hoboken, New Jersey, pp.425-432 ۑD. Nishikawa, T. Nakajima, Y. Ohzawa, M. Koh, A. Yamauchi, M. Kagawa, H. Aoyama, ͆Thermal and oxidation stability of organo-fluorine compound-mixed electrolyte solutions for lithium ion batteries͇,J. Power Sources, 243, 573-580 ۑT. Nakajima, Y. Hirobayashi, Y. Takayanagi, Y. Ohzawa,͆ Reactions of metallic Li or LiC6 with organic solvents for lithium ion battery͇, J. Power Sources, 243, 581-584 ۑS. Suzuki, Z. Mazej, B. Žemva, Y. Ohzawa, T. Nakajima, ͆Surface passivation of natural graphite electrode for lithium ion battery by chlorine gas͆, Acta Chimica Slovenica, 60, 513-520 109 ۑT. Nakajima,͆ Fluorine compounds as energy conversion materials͇, J. Fluorine Chem., 149, 104-111 ۑ୰ᓥ ๛㸪͆ࣇࢵ⣲Ꮫ㟁ẼᏛ㸫ࣇࢵ㯮㖄ࢆࡣࡌࡵࡍࡿࣇࢵ⣲ྜ≀ࡢࣜࢳ࢘ ࣒㟁ụࡢᛂ⏝͇㸪Electrochemistry, 81(9), 692-697 ۑ୰ᓥ ๛㸪͆Ⅳ⣲ᮦᩱࡢࣇࢵ⣲ฎ⌮ἲ͇㸪Ⅳ⣲ᮦᩱᏛ㸪ࠕ࣮࢝࣎ࣥᮦᩱᐇ㦂ᢏ⾡㸦〇 㐀࣭ྜᡂ⦅㸧ࠖ㸪➨ 4 ❶㸪➨ 4-11 ⠇㸪ᅜ㝿ᩥ⊩༳ๅ㸪pp.318-327 ۑ⃝ၿ⨾㸪͆CVI ἲࡼࡿⅣ⣲⣔」ྜᮦᩱࡢస〇͇㸪Ⅳ⣲ᮦᩱᏛ㸪ࠕ࣮࢝࣎ࣥᮦᩱᐇ 㦂ᢏ⾡㸦〇㐀࣭ྜᡂ⦅㸧ࠖ㸪➨ 4 ❶㸪➨ 4-6 ⠇㸪ᅜ㝿ᩥ⊩༳ๅ㸪pp.283-288 ۑ⃝ၿ⨾㸪 ͆㞴㯮㖄ᛶⅣ⣲㈇ᴟᮦᩱࡢ㟁ẼᏛⓗ≉ᛶࡑࡢ ᐃἲ͇㸪ᢏ⾡ሗ༠㸪 ࠕ㟁ẼᏛ㸭ࣥࣆ࣮ࢲࣥࢫ ᐃࡢࣀ࢘ࣁ࢘ṇࡋ࠸ࢹ࣮ࢱゎ㔘ࠖ㸪➨ 3 ❶㸪 ➨ 2 ⠇[13]㸪 ᢏ⾡ሗ༠㸪pp.254-257 ۑ⃝ၿ⨾㸪͆ࣜࣥ㓟㕲ࣜࢳ࣒࢘ṇᴟᮦᩱࡢ㟁ẼᏛⓗ≉ᛶࡑࡢ ᐃἲ͇㸪ᢏ⾡ሗ༠ 㸪ࠕ㟁ẼᏛ㸭ࣥࣆ࣮ࢲࣥࢫ ᐃࡢࣀ࢘ࣁ࢘ṇࡋ࠸ࢹ࣮ࢱゎ㔘ࠖ㸪➨ 3 ❶㸪➨ 2 ⠇[12]㸪ᢏ⾡ሗ༠㸪pp.250-253 ۑKhanin Nueangnoraj, Hirotomo Nishihara, Katsuaki Imai, Hiroyuki Itoi, Takafumi Ishii, Manabu Kiguchi, Yohei Sato, Masami Terauchi, Takashi Kyotani,“Formation of crosslinked-fullerene-like framework as negative replica of zeolite Y”, Carbon, 62, 2013, pp. 455-464 ۑMasashi Ito, Hirotomo Nishihara, Kentaro Yamamoto, Hiroyuki Itoi, Hideki Tanaka, Akira Maki, Minoru T. Miyahara, Seung Jae Yang, Chong Rae Park, Takashi Kyotani, “Reversible Pore Size Control of Elastic Microporous Material by Mechanical Force”,Chem.㸫Eur. J., 19, 2013, pp. 13009-13016 ۑHiroyuki Itoi, Hirotomo Nishihara, Takafumi Ishii, Khanin Nueangnoraj, Raúl Berenguer-Betrián, and Takashi Kyotani,“Large Pseudocapacitance in Quinone-Functionalized Zeolite-Templated Carbon”, Bull. Chem. Soc. Jpn., 2014, 87, pp. 250–25 ۑTsuyoshi NAKAJIMA, Takashi ACHIHA, Satoshi SUZUKI, Yoshimi OHZAWA, Zoran MAZEJ and Boris Žemva,“Surface fluorination and chlorination of natural graphite powder for lithium ion battery”, 21st Winter Fluorine Conference, Saint Pete Beach, FL, January 13-19, Invited Lecture 11, p.24 ۑT. Nakajima, D. Nishikawa, Y. Ohzawa, M. Koh, A. Yamauchi, M. Kagawa, H. Aoyama,“Safety improvement of lithium ion battery by fluorine compounds having low reactivity with Li and high oxidation stability”, 17th European Symposium on Fluorine Chemistry, Paris, France, July 21-25, 2013, FMEC11.1, p.202 ۑYoshimi Ohzawa, Shota Yokoyama, Tsuyoshi Nakajima, Alexander M. Panich, Alexander I. Shames,“Structural and electrochemical characteristics of pyrocarbon-coated natural graphite powders with different particle size using pressure-pulsed chemical vapor deposition 110 technique“,17th International Symposium on Intercalation compounds, Sendai, Japan, May 12-16, 2013, PI-60, p.94 ۑHiroshi Ito, Shunsuke Yamada, Yoshimi Ohzawa, Tsuyoshi Nakajima, Henri Groult,“Silicon-coating on natural graphite for anode of lithium-ion battery using chemical vapor deposition method”,17th International Symposium on Intercalation compounds, Sendai, Japan, May 12-16, 2013, PI-12, p.70 ۑHiroyasu Kondo, Akira Abe, Yoshimi Ohzawa, Tsuyoshi Nakajima, Alain Tressaud, ͆Pyrocarbon-coating on mesocarbon microbeads and their anode properties for lithium ion batteries͇, 17th International Symposium on Intercalation compounds, Sendai, Japan, May 12-16, 2013, PI-11, p.70 ۑS. Suzuki, Z. Mazej, B. Žemva, Y. Ohzawa, T. Nakajima,“Surface passivation of natural graphite for lithium ion battery by chlorine”,17th International Symposium on Intercalation compounds, Sendai, Japan, May 12-16, 2013, PI-13, p.71 ۑHirotomo Nishihara㺂Khanin Nueangnoraj, Raul Berenguer Betrian, Hiroyuki Itoi, Masashi Ito, and Takashi Kyotani,“Large Pseudocapacitance Induced by Redox Reactions on Microporous Carbon in Organic Electrolyte”, CARBON2013㸦Rio de Janeiro, Brazil㸧July, 15, 2013. No.167 ۑఀ⸨ ၨ㸪ᒣ⏣ᓧ㈨㸪⃝ၿ⨾㸪୰ᓥ ๛㸪⣒ᘯ⾜㸪͆CVD ἲࡼࡿࣜࢳ࣒࢘࢜ࣥ 㟁ụ⏝ኳ↛㯮㖄/ࢩࣜࢥࣥ」ྜ㈇ᴟࡢస〇͇㸪᪥ᮏࢭ࣑ࣛࢵࢡࢫ༠ᮾᾏᨭ㒊➨ 46 ᅇᮾ ᾏⱝᡭࢭ࣑ࣛࢫࢺ᠓ヰ㸦2013 ᖺኟᮇࢭ࣑ࢼ࣮㸧㸦≟ᒣ㸧せ᪨㞟㸪㹮.22 ۑ㏆⸨⿱ಖ㸪⃝ၿ⨾㸪୰ᓥ ๛㸪⣒ᘯ⾜㸪͆ࣃࣝࢫ CVI ἲࢆ⏝࠸ࡓ㯮㖄ᮦᩱࡢ⇕ศ ゎⅣ⣲ࢥ࣮ࢸࣥࢢ㟁ẼᏛⓗ≉ᛶホ౯͇㸪᪥ᮏࢭ࣑ࣛࢵࢡࢫ༠ᮾᾏᨭ㒊➨ 46 ᅇ ᮾᾏⱝᡭࢭ࣑ࣛࢫࢺ᠓ヰ㸦2013 ᖺኟᮇࢭ࣑ࢼ࣮㸧㸦≟ᒣ㸧せ᪨㞟㸪㹮.23 ۑఀ⸨ ၨ㸪⣒ᘯ⾜㸪⃝ၿ⨾㸪୰ᓥ ๛㸪͆CVD ἲࢆ⏝ࡋࡓࣜࢳ࣒࢘࢜ࣥ㟁ụ㈇ ᴟ⏝ኳ↛㯮㖄ࡢࢩࣜࢥࣥࢥ࣮ࢸࣥࢢ㟁ẼᏛⓗ≉ᛶホ౯͇㸪➨ 44 ᅇ୰㒊Ꮫ㛵 ಀᏛ༠ᨭ㒊㐃ྜ⛅Ꮨ㸦㟼ᒸᏛ㸧ㅮ₇ண✏㞟㸪2B05, p.129 ۑ⃝ၿ⨾㸪㏆⸨⿱ಖ㸪⣒ᘯ⾜㸪୰ᓥ ๛㸪͆ࣃࣝࢫ CVI ἲࡼࡿྛ✀ ᗘ࡛↝ᡂࡋࡓ Ⅳ⣲ᮦᩱࡢ⇕ศゎⅣ⣲ࢥ࣮ࢸࣥࢢ㟁ẼᏛⓗ≉ᛶホ౯͇㸪➨ 40 ᅇⅣ⣲ᮦᩱᏛ ᖺ㸦ி㒔㸧せ᪨㞟㸪PI18, p.66 ۑ⃝ၿ⨾㸪ఀ⸨ၨ㸪⣒ᘯ⾜㸪୰ᓥ ๛㸪͆ࣜࢳ࣒࢘࢜ࣥ㟁ụ㈇ᴟ⏝㯮㖄ࡢࢩࣜࢥ ࣥ࠾ࡼࡧ࣮࢝࣎ࣥࢥ࣮ࢸࣥࢢ㟁ẼᏛⓗ≉ᛶホ౯͇㸪➨ 40 ᅇⅣ⣲ᮦᩱᏛᖺ㸦ி 㒔㸧せ᪨㞟㸪PII 14, p.100 ۑすཎὒ▱㸪⸨ᮏᏹஅ㸪⣒ᘯ⾜㸪ࢾ࣮ࣥࣀࣛࢻ㺃࢝ࢽࣥ㸪⏣୰⚽ᶞ㸪┿ᮌ ᬗ㸪ᐑཎ ⛱㸪 ி㇂ 㝯㸪͆Experimental and Theoretical Analyses of the Framework of Zeolite- Templated Carbon͇㸪➨ 40 ᅇⅣ⣲ᮦᩱᏛᖺ㸦ி㒔㸧ᖹᡂ 25 ᖺᗘ 12 ᭶ 4 ᪥ せ᪨㞟, 2B02, p.142 ۑ⣒ᘯ⾜㸪ࠕከᏍ㉁Ⅳ⣲ᮦᩱࡢ㔠ᒓࢡࣛࢫࢱ࣮ࡢ㧗ศᩓࠖ㸪ඛ➃Ⅳ⣲ᮦᩱࢭ࣑ࢼ࣮ 2014 111 ۑᕌᩥ⚽㸪すཎὒ▱㸪⣒ᘯ⾜㸪ఀ⸨ ோ㸪ி㇂ 㝯㸪࣓͆ࢱࣟࢭࣥࢆ๓㥑యࡋࡓ㔠ᒓ ࢼࣀࢡࣛࢫࢱ࣮ᢸᣢࢮ࢜ࣛࢺ㗪ᆺⅣ⣲ࡢỈ⣲྾╔ᣲື͇㸪᪥ᮏᏛ➨ 94 ᮇᖺ 㸦ྡྂᒇ㸧ᖹᡂ 26 ᖺ 3 ᭶ 28 ᪥ ࢢ࣮ࣝࣉ㸲㸸㫽 ᏹࠊỈ㔝 ᩍࠊᮧ℩ ὒࠊ㞷⏣ே ۑTsuyoshi Kito, Yugo Osaka, Kazuki Kuwata, Nor iyuki Kobayashi, Hongyu Huan and Zhaohong He, ͆ Study on performance of chemical heat storage system for direct steamgeneration͇ Journal of Renewable and Sustainable Energy 6 , 023101 (2014), DOI: 10.106 3/1.4868029 ۑJun Li, Hongyu Huang, Noriyuki Kobayashi, Zhaohong He and Yoshihiro Nagai,͆Study on using hydrogen and ammonia as fuels: Combustion characteristics and NOx formation͇, International Journal of Energy Research (2014), DOI: 10.1 002/er.3141 ۑTomoki Kinno, Kazuto Yukita, Yasuyuki Goto, Katsuhiro Ichiyanagi, Tomohito Ushirokawa, Keiichi Hirose and Yoshiaki Okui㸪͆Operation Method of Micro Grid Using the Forecasting Method by Neural Network͇ISAP 2013, Vol.2013㸪No.929 (2013.7) ۑJun Ishikawa, Akihiro Torii, Atsushi Nakata, Kae Doki,͆A Photovoltaic System Using Tapped Transformer Suitable for Energy Harvesting ͇ , Malaysia-Japan International Institute of Technology, and Japanese University Consortium Joint International Symposium 2013, PS-18 ۑAkihiro Torii, Atsushi Nakata, Kae Doki,͆A Photovoltaic System Used in Energy Harvesting for Low Power Application͇,The 24th International Symposium on Micro-NanoMechatronics and Human Science, MP2-1-1 ۑKawai Ryuji, Ichiyanagi Katsuhiro, Kinno Tomoki, Yukita Kazuto, Mizuno Katsunori, Goto Yasuyuki, Yamada Fujihiro, Wazawa Yoshihiko, ͆ Examination of Input Information for Forecasting of Photovoltaic Power͇,PVSEC-23, No.7-O-9 (1516) ۑ୰⏣⠜ྐ㸪ᶫᮏ㈗ྐ㸪ᑠ⃝ဴኵ㸪㫽ᏹ㸪᳜⏣᫂↷㸪͆㒊ศⓗ㝜ࢆ⪃៖ࡋࡓ PV ࣔࢪ ࣮ࣗࣝฟຊኚᅽჾࢱࢵࣉษ᭰᪉ᘧ PCS͇㸪ᖹᡂ 25 ᖺ㟁ẼᏛᅜ, 4-069 ۑᇼ ㇏㈗㸪ᮧ℩ ὒ㸪౫⏣ṇஅ㸪⟪㍯ᫀᖾ㸪͆㧗㟁ᅽ┤ὶ㟁Ⲵࡢ₃ὤ⌧㇟Ẽ୰㞺ᅖẼࡀ ࠼ࡿᙳ㡪͇㸪ᖹᡂ 25 ᖺ㟁ẼᏛᅜ,7-090 ྜྷ ۑ㔝 ┿㸪㫽ᏹ㸪᳜⏣᫂↷㸪͆ࢯࣇࢺࢫࢵࢳࣥࢢ୕┦୍▼᪼ᅽᙧᩚὶᅇ㊰ࡢࣇ ࣝࢱࢥࣥࢹࣥࢧ㛵ࡍࡿ᳨ウ͇㸪ᖹᡂ 25 ᖺ㟁ẼᏛᅜ, 4-052 ۑ㔠⣡᭸㍤㸪㞷⏣ே㸪ᚋ⸨Ὀஅ㸪୍ᰗᏹ㸪ྜ⏣ᛅᘯ㸪͆ㄏᑟᶵᑟධ⣔⤫࠾ࡅࡿ⣔⤫ 㐃⣔⨨ࡢ༢⊂㐠㌿᳨ฟ㛵ࡍࡿ᳨୍ウ͇㸪ᖹᡂ 25 ᖺ㟁ẼᏛ㟁ຊ࣭࢚ࢿࣝࢠ࣮㒊㛛 㸪No.P53 (2013.8) ۑᇼ ㇏㈗㸪ᮧ℩ ὒ㸪౫⏣ṇஅ㸪⟪㍯ᫀᖾ㸪͆㧗㟁ᅽ┤ὶ㟁Ⲵࡢ₃ὤ⌧㇟࠾ࡅࡿ㏦㢼ࡢ ᙳ㡪͇㸪ᖹᡂ 25 ᖺ㟁ẼᏛ㟁ຊ࣭࢚ࢿࣝࢠ࣮㒊㛛,No.328 ۑ㫽ᏹ㸪୰⏣⠜ྐ㸪᭮᰿㸪᳜⏣᫂↷㸪͆PV ࣔࢪ࣮ࣗࣝࡢ⡆᫆࡞ IV ᭤⥺➼౯ᅇ 112 ㊰ࡼࡿ᭱㟁ຊࡢ㟁ᅽ⟬ฟἲ͇㸪ᖹᡂ 25 ᖺ㟁ẼᏛ⏘ᴗᛂ⏝㒊㛛 1-59 ۑ㔠⣡᭸㍤㸪୕ዲᏹ᫂㸪ᑠᒣṇၿ㸪㞷⏣ே㸪ᚋ⸨Ὀஅ㸪୍ᰗᏹ㸪Ṋ⏣ 㝯㸪ኴ⏣ᣅᘺ㸪 ࣐͆ࢡࣟࢢࣜࢵࢻ࠾ࡅࡿ㐃⣔Ⅼ㟁ຊไᚚࢆ⏝࠸ࡓ㐠㌿ᡭἲࡢᇶ♏ⓗ᳨ウ͇㸪2013 ᖺ㟁ẼタഛᏛᅜ Vol.2013,E-23 (2013.9) ۑᇼ⏣㝧ᖹ㸪㐲⸨㸪㔠⣡᭸㍤㸪㞷⏣ே㸪ᚋ⸨Ὀஅ㸪୍ᰗᏹ㸪͆ࢽ࣮ࣗࣛࣝࢿࢵࢺ ࢆ⏝࠸ࡓ㟁ụࡢ SOC ᥎ᐃࡢᇶ♏ⓗ᳨ウ͇㸪ᖹᡂ 25 ᖺᗘ㟁Ẽ㛵ಀᏛᮾᾏᨭ㒊㐃ྜ 㸪Po2-19 (2013.9) ୕ ۑዲᏹ᫂㸪㔠⣡᭸㍤㸪㞷⏣ே㸪ᚋ⸨Ὀஅ㸪୍ᰗᏹ㸪Ṋ⏣ 㝯㸪ኴ⏣ᣅᘺ㸪࣐͆ࢡ ࣟࢢࣜࢵࢻ࠾ࡅࡿ㐃⣔Ⅼ㟁ຊไᚚࢆ⏝࠸ࡓࣆ࣮ࢡ࢝ࢵࢺ࣭ࣆ࣮ࢡࢩࣇࢺ㐠㌿ࡘ࠸࡚ ࡢᇶ♏ⓗ᳨ウ͇㸪ᖹᡂ 25 ᖺᗘ㟁Ẽ㛵ಀᏛᮾᾏᨭ㒊㐃ྜ㸪Po2-17 (2013.9) ۑ㔠⣡᭸㍤㸪୕ዲᏹ᫂㸪㞷⏣ே㸪ᚋ⸨Ὀஅ㸪୍ᰗᏹ㸪Ṋ⏣ 㝯㸪ᯇᑿⱥᚨ㸪͆ࣆ࣮ࢡ ࢩࣇࢺࢆ⪃៖ࡋࡓ࣐ࢡࣟࢢࣜࢵࢻᑟධ⣔⤫࠾ࡅࡿ EV/PHV ࡢᨺ㟁ไᚚࡢ᳨୍ウ͇㸪 ᖹᡂ 25 ᖺ㟁ẼᏛ㟁ຊᢏ⾡࣭㟁ຊ⣔⤫ᢏ⾡ྜྠ◊✲ Vol.2013㸪Page.123-128㸪 PE-13-71,PSE-13-87 (2013.9) ℧ ۑᕝὒᖹ㸪㔠⣡᭸㍤㸪୕ዲᏹ᫂㸪㞷⏣ே㸪ᚋ⸨ᗣஅ㸪୍ᰗᏹ㸪͆ศᩓᆺ᭱㈇Ⲵ㏣ ᚑไᚚࢆ⏝࠸ࡓⓎ㟁㟁ຊྥୖ㛵ࡍࡿ᳨ウ͇㸪㟁ẼᏛ᪂࢚ࢿࣝࢠ࣮࣭⎔ቃ࣭࣓ࢱ࣎ࣜ ࢬ࣒♫࣭⎔ቃࢩࢫࢸ࣒ྜྠ◊✲ Page.19-24㸪FTE-13-048㸪MES-13-004 (2013.11) ୕ ۑዲᏹ᫂㸪㔠⣡᭸㍤㸪Ṋ⏣ 㝯㸪㞷⏣ே㸪ᚋ⸨Ὀஅ㸪 ୍ᰗᏹ㸪ኴ⏣ᣅᘺ㸪͆㟁ụ ࢆ᭷ࡋࡓኴ㝧ගⓎ㟁ᑟධࢩࢫࢸ࣒ࡢ⣔⤫ᨾ㞀Ⓨ⏕ࡢື≉ᛶࡢ᳨ウ͇㸪ᖹᡂ 25 ᖺᗘ᪥ ᮏኴ㝧࢚ࢿࣝࢠ࣮Ꮫ࣭᪥ᮏ㢼ຊ࢚ࢿࣝࢠ࣮ᏛྜྠⓎ⾲◊✲ Vol.2013, No64㸪 Page.235-238 (2013.11) ۑᇼ ㇏㈗㸪ᮧ℩ ὒ㸪౫⏣ṇஅ㸪⟪㍯ᫀᖾ㸪͆Ẽ୰㞺ᅖẼ࠾ࡼࡧ㢼ࡀ㧗㟁ᅽ┤ὶ㟁Ⲵ₃ὤ ⌧㇟࠼ࡿᙳ㡪͇㸪ᖹᡂ 25 ᖺ➨ 44 ᅇ㟁Ẽ㟁Ꮚ⤯⦕ᮦᩱࢩ࣏ࣥࢪ࣒࢘ MVP-4 ۑᑠᒣṇၿ㸪୕ዲᏹ᫂㸪Ṋ⏣㝯㸪㞷⏣ே㸪ᚋ⸨ᗣஅ㸪୍ᰗᏹ㸪᳜ᖹ ㄔ㸪ᑠᒣ࿃㸪 ᒸ⏣┤ᶞ㸪͆EV ά⏝ࡼࡿᑠつᶍ⣔⤫ࡢ⤥㟁ไᚚࡢ᳨ウ͇㸪ᖹᡂ 26 ᖺ㟁ẼᏛᅜ ,6-238 ୕ ۑዲᏹ᫂㸪㔠⣡᭸㍤㸪Ṋ⏣ 㝯㸪㞷⏣ே㸪ᚋ⸨Ὀஅ㸪୍ᰗᏹ㸪ኴ⏣ᣅᘺ㸪͆DC ࣐ ࢡࣟࢢࣜࢵࢻ࠾ࡅࡿࣆ࣮ࢡ࢝ࢵࢺ࣭ࣆ࣮ࢡࢩࣇࢺ㐠㌿ࡘ࠸࡚ࡢ᳨ウ͇㸪ᖹᡂ 26 ᖺ 㟁ẼᏛᅜ,6-178 ۑᇼ ㇏㈗㸪ᮧ℩ ὒ㸪౫⏣ṇஅ㸪⟪㍯ᫀᖾ㸪͆Ẽ୰⢊ሻࡀ㧗㟁ᅽ┤ὶ㟁Ⲵ₃ὤ⌧㇟࠼ ࡿᙳ㡪͇㸪ᖹᡂ 26 ᖺ㟁ẼᏛᅜ,7-100 ▼ ۑᕝ ῟㸪୰⏣⠜ྐ㸪㫽ᏹ㸪᳜⏣᫂↷㸪͆㒊ศ㝜ࡀ࠶ࡿኴ㝧㟁ụࡢ᭱㟁ຊࡢ㟁 ᅽ᥎ᐃ͇㸪ᖹᡂ 26 ᖺ㟁ẼᏛᅜ,4-062
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