これまでの研究業績

原著論文(査読付き)
1)  S. Yamauchi, M. Yaoita, F. Matsumoto, T. Yokoyama, Y. Ikariyama, “Electrode processes on an enzyme-embodied electrode”, Sens. Actuators, B, 13(1-3),  79-81 (1993). 
2)  T. Ohsaka, F. Matsumoto, F. Kitamura, K. Tokuda, "One- and Two-Electron Reduction of Molecular Oxygen Based Electrode Surface Modification in Alkaline Aqueous Media", Denki Kagaku, 61, No.7, 763-766 (1993).
3)  大坂武男, 松本 太、岡島武義、徳田耕一、”H2O及びD2O中でのスーパーオキシドイオンのジスムテーション”, J. Deuterium Sci., 3, No. 2, 95-100 (1993).
4)  大坂武男, 松本 太、岡島武義、徳田耕一、”水溶液中でのスーパーオキシドイオンの電解生成”, J. Deuterium Sci., 4, No. 1, 44-47 (1994).
5)  F. Matsumoto, K. Tokuda and T. Ohsaka, "Electrogeneration of Superoxide Ion on Thiol-Modified Gold Electrode in aqueous Solution", Denki Kagaku, 63, No. 12, 1205-1208 (1995).
6)  T. Ohsaka, Y. Shintani, F. Matsumoto, T. Okajima, K. Tokuda, "Mediated Electron Transfer of Polyethylene Oxide-Modified Superoxide Dismutase by Methyl Viologen", Bioelectrochem. and Bioenerg., 37, 73-76 (1995).
7)  F. Matsumoto, K. Tokuda and T. Ohsaka, "Electrogeneration of Superoxide Ion at Quinoline-Adsorbed Mercury Electrode in Alkaline Aqueous Solution", J. Deuterium Sci., 5, 23-30 (1996).
8)  F. Matsumoto, K. Tokuda, T. Ohsaka, "Electrogeneration of Superoxide Ion at Mercury Electrodes with a Hydrophobic Adsorption Film in Aqueous Media", Electroanalysis, 8, 648-653 (1996). 
9)  Y. Che, M. Tsushima, F. Matsumoto, T. Okajima, K. Tokuda, T. Ohsaka, "Water-Induced Disproportination of Superoxide Ion in Aprotic Solvent", J. Phys. Chem., 100, 20134-20137 (1996).
10) N. Oyama, J. M. Pope, T. Tatsuma, O. Hatozaki, F. Matsumoto, Q. Chi, S. C. Paulson, and M. Iwaku, "Metal-Catalyzed Organosulfur Cathodes for Rechargeable Lithium Batteries", Macromolecular Symposia, 131, 103-113 (1998).
11) F. Matsumoto, M. Ozaki, S. C. Paulson, Y. Inatomi and N. Oyama, "Studies on the Adsorption Behavior of 2,5-Dimercapto-1,3,4-thiadiazole (DMcT) and 2-Mercapto-5-methyl-1,3,4-thiadiazole (McMT) at Au and Cu Electrode Surfaces", Langmuir, 13 (5), 857-865 (1999).                             
12) J. F. Wu, Y. Che, T. Okajima, F. Matsumoto, K. Tokuda, T. Ohsaka, “Hydrodynamic Chronocoulometric Determination of Diffusion Coefficients and Concentrations of Dioxygen in Media Containing Quinoline, Isoquionoline, and Methylquinolines”, Anal. Chem.,71, 4056-4060 (1999).
13) J. F. Wu, Y. Che, T. Okajima, F. Matsumoto, K. Tokuda, T. Ohsaka, “Electroreduction of oxygen in quinoline and isoquinoline”, Electrochim. Acta, 45, 987-991(1999).
14) 小浦延幸、江尻芳則、間宮基之、井手本 康、松本太、 ”銅電析に及ぼすゼラチンおよび塩化物イオンの影響II”、表面技術, 51, 938-944 (2000).
15) 小浦延幸、對木洋文、寺倉典弘、宇井幸一、山田和夫、見立武仁、井手本 康、松本 太、 ”泳動電着を用いたバインダーフリー炭素材料膜の作製”、表面技術,52(1), 143-144 (2001).
16) 小浦延幸、鈴木靖庸、松本 太、井手本 康、 ”常温型溶融塩からのZn-Ni合金のアモルファス電析”、表面技術、52(1), 116-119 (2001).
17)  F. Matsumoto, S. Uesugi, N. Koura, T. Okajima, T. Ohsaka, “Electrochemical reduction of molecular oxygen at Hg adatom-modified Au electrode”, J. Electroanal. Chem., 505 (1-2), 150-158 (2001).
18) 上杉慎治、勝間田哲朗、松本太、小浦延幸、大坂武男、”水銀アドアトム修飾金電極上での過酸化水素の還元反応における電気化学振動現象”、Electrochemistry, 69 (9), 681-685 (2001).
19) 小浦延幸, 芝野憲司, 松本 太, 松澤秀則, 井手本 康, 加藤智紀, 凌 国平, “NbCl5-SnCl2-EMIC系常温型溶融塩浴からのNb3Sn超伝導合金の電析”, 表面技術, 52(9), 645-646 (2001).
20) H. Ono, T. Okajima, F. Matsumoto, T. Oritani, T. Shimizu, M. Takahashi, T. Ohsaka, “Electrogeneration of Superoxide Ion at Polyaniline-modified Electrodes in Aqueous Media”, Electrochemistry, 69 (12), 953-955, (2001).
21) 大木成政、上杉慎治、村山耕亮、松本太、小浦延幸、岡島武義、大坂武男、”アルカリ性水溶液中におけるポリアニリンスルホン酸修飾電極を用いたスーパーオキシドイオンの電解生成”, Electrochemistry, 70 (1), 23-29, (2002).
22) N. Koura, K. Etoh, Y. Idemoto, F. Matsumoto, “Electrochemical Behavior of Graphite-Lithium Intercalation Electrode in AlCl3-EMIC-LiCl-SOCl2 Room-Temperature Molten Salt”, Chemistry Letters, 1320-1321 (2001).
23) 小浦延幸, 田代洋介, 二村昌樹, 松本 太, 井手本 康, “AlCl3-EMIC系常温型溶融塩からのアルミニウムの配向電析”、表面技術、52(11), 791-792, (2001).
24) 小浦延幸, 山崎 崇, 松本 太, 猿渡秀郷, 北原しのぶ, 井手本 康, 古川雅一, 内秀則、”高配向アルミニウムの直流エッチングにより形成されるトンネルの入り口形態の考察”、表面技術、53(2),154-155 (2002).
25) N. Koura, Y. Suzuki, Y. Idemoto, T. Kato, F. Matsumoto, “Electrodeposition of Zn-Ni alloy from ZnCl2-NiCl2-EMIC and ZnCl2-NiCl2-EMIC-EtOH ambient-temperature molten salts”, Surface & Coatings Technology, 169-170, 120-123 (2003).
26) 小浦延幸, 松本 太, 猿渡秀郷, 北原しのぶ, 山崎 崇, 井手本 康、古川雅一, 内 秀則、”{100}高配向アルミニウムへの直流エッチングによって形成されるトンネルの形態観察及びその評価 ~溶液組成依存性について~”, 表面技術, 53(9), 612-617(2002).
27) 小浦延幸、府野真也、對木洋文、井手本 康、宇井幸一、松本太
     ”泳動電着法を用いたリチウム二次電池用炭素負極の作製”、表面技術, 53 (10), 683-687 (2002).
28)  小浦延幸,  松澤秀則,  野木淳志, 井手本 康、松本 太、”Li2CO3-Na2CO3系高温溶融塩中でのFe及びFe-Ni基板の腐食挙動”, 表面技術、53(11), 759-764 (2002).
29) 小浦延幸, 松本 太, 山崎 崇, 猿渡秀郷, 井手本 康, 北原しのぶ, 小野昭二, 内 秀則, “高配向アルミニウムへの直流エッチングによって形成されるトンネル入り口部の形態”, 表面技術、54(3), 217-223 (2003)
30) N. Koura, T. Minami, K. Etoh, Y. Idemoto, F. Matsumoto, “Cycling Behavior of Binder-Free Graphite-Lithium Intercalation Anode in AlCl3-EMIC-LiCl-SOCl2 Room-Temperature Molten Salt”, Journal of the Korean Electrochemical Society, 5(4), 178-182 (2002).
31) N. Koura, H. Matsuzawa, T. Kato, Y. Idemoto, F. Matsumoto, “Structural Analysis of Ionic Species in NbCl5-EMIC and SnCl2-EMIC Molten Salts with Spectroscopic Measurement and Ab Initio Molecular Orbital Calculation”, Journal of the Korean Electrochemical Society, 5(4) 183-188 (2002).
32) F. Matsumoto, M. Harada, N. Koura, S. Uesugi, “Electrochemical oxidation of glucose at mercury adatom-modified Au electrode in alkaline aqueous solution”, Electrochemistry Communications, 5, 42-46 (2003).
33) F. Matsumoto, T. Okajima, S. Uesugi, N. Koura, T. Ohsaka, “Electrogeneration of Superoxide Ion and Its Mechanism at Thiol-Modified Au Electrodes in Alkaline Aqueous Solution”, Electrochemistry, 71(4), 266-273 (2003).
34) F. Matsumoto, S. Uesugi, N. Koura, T. Ohsaka, “Acceleration of electrochemical reduction of hydrogen peroxide and observation of current oscillatory phenomena during its reaction on mercury adatom-modified Au electrode”, J. Electroanal. Chem., 549, 71-80 (2003).
35) F. Matsumoto, S. Uesugi, M. Harada, N. Koura, T. Ohsaka, “Electrochemical Reduction of Molecular Oxygen on Hg Adatom-Modified Au Electrode in Organic Media Containing a Trace Amount of Water”, Electrochemistry, 71, 927-932 (2003).
36) F. Matsumoto, M. Harada, N. Koura, T. Okajima, T. Ohsaka, “Enhancement of electrochemical oxidation of glucose at Hg adatom-modified Au electrode in alkaline aqueous solutions”, Electrochemistry, 72, 103-110 (2004).
37) D. Zhang, T. Okajima, F. Matsumoto, T. Ohsaka, “Electro-reduction of Dioxygen in 1-n-Alkyl-3-metylimidazolium Tetrafluoroborate Room-temperature Ionic Liquids”, J. Electrochem. Soc., 151(4), D31-37 (2004)..
38) F. Matsumoto, K. Nishio, H. Masuda, “Ideally Ordered, High-Density Patterning of DNA Using Au Disk Array Fabricated with an Anodic Porous Alumina”, Jpn. J. Appl. Phys., 43(5A), L640-L643 (2004).
39) H. Masuda, Y. Matsui, M. Yotsuya, F. Matsumoto, K. Nishio, “Fabrication of Highly Ordered Anodic Porous Alumina Using Self-Organized Polystyrene Particle Array”, Chemistry Letters, 33(5), 584-585 (2004)
40) H. Masuda, H. Hogi, K. Nishio, F. Matsumoto, “Arrangement of Ferritin Molecules on a Gold Disk Array Fabricated on Highly Ordered Anodic Porous Alumina Substrate”, Chemistry Letters, 33(7), 812-813 (2004)
41) F. Matsumoto, M. Harada, N. Koura, K. Nishio, H. Masuda, “Fabrication and Electrochemical Behavior of Nano-Disk Array with Controlled Disk Interval Using Highly Ordered Porous Alumina”, Electrochemical and Solid-State Letters, 7(11), E51-53 (2004)
42) F. Matsumoto, M. Harada, N. Koura, T. Okajima, T. Ohsaka, “Enhanced Oxidation of Aldohexose and Aldopentose on Hg Adatom-Modified Au Electrode in Alkaline Aqueous Solution”, Electroanalysis, 17(8), 662-667 (2005)
43) F. Matsumoto, K. Nishio, H. Masuda, “Flow-Through-Type DNA Array Based on Ideally Ordered Anodic Porous Alumina Substrate”, Advanced Materials, 16, 2105-2108 (2004).
44) M. Harada, F. Matsumoto, K. Nishio, H, Masuda, “Study of Photocatalytic Reaction of TiO2 Using TiO2-Au Mosaic Arrays”, Electrochemical and Solid-State Letters, 8(2), E27-E29 (2005)
45) F. Matsumoto, M. Harada, K. Nishio, H. Masuda, “Arrangement of Nanometer-Size DNA Domains with Controlled Interval in Gold Disk Array Fabricated Using Highly Ordered Anodic Porous Alumina”, Advanced Materials, 17(13), 1609-1612 (2005)
46) F. Matsumoto, M. Kamiyama, K. Nishio, H. Masuda, “Nano-Patterning of DNA with 40 nm-diameter Using Highly Ordered Anodic Porous Alumina Substrate”, JJAP, 44(11), L355 - L358 (2005).
47) F. Matsumoto, M. Ishikawa, K. Nishio, H. Masuda, “Optical Properties of Long-Range-Ordered, High-Density Gold Nanodot Arrays Prepared Using Anodic Porous Alumina”, Chem. Lett., 34(4), 508-509 (2005)
48) K. Nishio, K. Yasui, F. Matsumoto, K. Kanezawa, H. Masuda , Direct Nanoimprinting of Si Single Crystals Using SiC Molds for Ordered Anodic Porous Anodic Tunnel Etching”, Advanced Materials, 17, 1293-1295 (2005)
49) C. Roychowdhury, F. Matsumoto, P. F. Mutolo, H. D. Abruña, F. J. DiSalvo, “Synthesis and characterization and electrochemical activity of PtBi nanoparticles prepared by the polyol process, Chem. Mater., 17(23), 5871 -5876 (2005)
50) H. Masuda, M. Yamada, F. Matsumoto, S. Yokoyama, S. Mashiko, M. Nakao, and K. Nishio, “Lasing from two-dimensional photonic crystals prepared using porous alumina”, Advanced Materials, 18, 213-216 (2006)
51) Chandrani Roychowdhury, Futoshi Matsumoto, Varvara B. Zeldovich, Paul F.Mutolo, MariaJulieth Ballesteros§, Héctor D. Abruña, and Francis J. DiSalvo, “Synthesis, Characterization and Electrocatalytic activity of PtBi and PtPb Nanoparticles prepared by Borohydride reduction in Methanol”, Chem. Mater, 18, 3365-3372 (2006).
52) Laif R. Alden, Chandrani Roychowdhury, Futoshi Matsumoto, Daniel K. Han, Varvara B. Zeldovich , Héctor D. Abruña, Francis J. DiSalvo, “Synthesis, Characterization, and Electrocatalytic Activity of PtPb Nanoparticles Prepared by Two Synthetic Approaches”, Langmuir, 22, 10465-10471 (2006).
53) Laif R. Alden, Daniel K. Han, Futoshi Matsumoto, Hector D. Abruna, Francis J. DiSalvo, “Intermetallic PtPb Nanoparticles Prepared by Sodium Naphthalide Reduction of Metal-Organic Precursors: Electrocatalytic Oxidation of Formic Acid”,   Chem. Mater., 18(23), 5591-5596 (2006).
54) Masahiro Harada, Futoshi Matsumoto, Kazuyuki Nishio, Hideki Masuda, “Electrochemical Detection of Short-lived Species Produced by Dye Sensitization Using TiO2/Au Mosaic Electrode Array”, Chem. Lett., 35(11), 1218-1219 (2006).
55) Futoshi Matsumoto, Chandrani Roychowdhury, Francis J. DiSalvo, and Héctor D. Abruña, “Electrochemical Activity of Ordered Intermetallic PtPb Nanoparticles Prepared by Borohydride Reduction towards Formic Acid Oxidation for Fuel Cell Applications” , J. Electrochem. Soc., 155(2), B148-B154 (2008).
56) Hideki Abe, Futoshi Matsumoto, Laif R. Alden, Héctor D. Abruña, and Francis J. DiSalvo, “High Electrocatalytic Activity of Atomically Ordered Pt3Ti Nanoparticles”, J. Am. Chem. Soc., 130(16), 5452-5458 (2008).
57) Toshiaki Kondo, Futoshi Matsumoto, Kazuyuki Nishio, and Hideki Masuda, “Surface-enhanced Raman Scattering on ordered Gold nanodot Arrays Prepared from Anodic Porous Alumina Mask”, Chem. Lett., 37(4), 466-467 (2008).
58) Tanushree Ghosh, Futoshi Matsumoto, Jennifer McInnis, Marilyn Weiss, Héctor D. Abruña, and Francis J. DiSalvo, “PtPb nanoparticle electrocatalysts: Control of activity through synthetic methods”, J. Nanopart. Res., 11, 965-980 (2009).
59) M. Chirstopher Orilall, Futoshi Matsumoto, Chin Zhou, Hiroaki Sai, Héctor D. Abruña, Francis J. DiSalvo, and Ulrich Wiesner, “One-Pot Synthesis of Platinum-based Nanoparticles Incorporated in Mesoporous Niobium Oxide for Next Generation Fuel Cell Electrodes,  J. Am. Chem. Soc., 131 (26), 9389-9395 (2009).

Proceeding
1)  S. Yamauchi, M. Yaoita, F. Matsumoto, Y. Ikariyama, “Chronopotentiometry Measurement on Enzyme Embodied Electrode”, Sensor Symp.,Technical Digest of the 11th Sensor Symp., p.193-196 (6 / 1992).
2)  N. Oyama, Q. Chi, F. Matsumoto, O. Hatozaki, T. Tatsuma, “Electrochemical interaction of organosulfur at Cu electrode surface”, Book of Abstracts, 215th ACS National Meeting, Dallas, March 29-April 2 (1998).
3) N. Oyama, F. Matsumoto, O. Hatozaki, "Electrochemical Interaction among Organosulfur Compounds Metal Ion and Polyaniline at Cu Electrode Surface" in Proceeding of Molecular Functions of Electroactive Thin Film (N. Oyama, V. I. Birss, eds.)", PV 98-26 (1999), Electrochemical Society, Inc.
4) F. Matsumoto, M. Harada, K. Nishio, H. Masuda, “FABRICATION OF HIGHLY ORDERED NANOPATTERNS OF BIOLOGICAL MOLECULE USING ANODIC POROUS ALUMINA”, PV 04 (2004), Electrochemical Society, Inc.

解説
1)  大坂武男、松本 太、”活性酸素種の生成・検出・反応 -電気化学的アプローチによる基礎研究-"、表面、34, 565-577 (1996).
2) 小山 昇、松本 太、波戸崎 修、”リチウム二次電池カソード用イオウ高分子の電子移動反応”、電池技術、第11巻 75-84 (1999) .
3) 小浦延幸、鈴木靖庸、松本 太、”イオン性液体からの金属電析と機能性めっきへの応用”, Electrochemistry, 70 (3), 203-208 (2002).
4) 小浦延幸、井手本 康、松本 太、"新しいリチウム二次電池の創成をめざして",マテリアルインテグレーション, 15(3),  63-68 (2002).
5) 小浦延幸、江藤恵子、井手本 康、松本 太、”常温型溶融塩を用いたリチウム二次電池の開発”, 表面, 39(11), 445-455 (2001).
6) 西尾和之、松本 太、松井良隆、益田秀樹、機能性材料開発の最前線-KASTの挑戦 益田「ナノホールアレープロジェクト」(1) “アルミの陽極酸化によるナノホールアレーの形成と機能化”, 工業材料, Vol. 52(2), 9-11.
7) 松本 太、益田秀樹、機能性材料開発の最前線-KASTの挑戦- 益田「ナノホールアレープロジェクト」(3) “アルミナナノホールアレイを用いた高密度DNAアレイ”, 工業材料, Vol. 52(4), 10-11
8) Hideki Masuda, Futoshi Matsumoto, and Kazuyuki Nishio, Fabrication of Functional Devices Based on Highly Ordered Anodic Porous Alumina, Electrochemistry, 72(6), 389-394 (2004)
9) 松本 太、原田真宏、“白金族元素のメッキおよび電気化学材料への応用”、材料の科学と工学、41(6), 297-301 (2004).
10) Héctor D. Abruña, Futoshi Matsumoto, Jamie L. Cohen, Jing Jin, Chandrani Roychowdhury, Mark Prochaska, R. Bruce van Dover, Frank J. DiSalvo, Yasuyuki Kiya, Jay C. Henderson, Geoffrey R. Hutchison, “Electrochemical Energy Generation and Storage ~Fuel Cells and Lithium-Ion Batteries~ ”, Bull. Chem. Soc. Japan, 80(10), 1843-1855 (2007).

著書
1)  T. Ohsaka, F. Matsumoto, T. Okajima, F. Kitamura, K. Tokuda, "Electrogeneration and Dismutation of Superoxide Ion in Aqueous Media" in "Novel Trends in Electroorganic Synthesis" ( S. Torii, ed.), Kodansha, 169-170 (1995), 分担.
2) T. Ohsaka, F. Matsumoto, K. Tokuda, An Electrochemical Approach to Dismutation of Superoxide Ion Using a Biological Model System with a Hydrophobic/Hydrophilic Interface in "Frontiers of Reactive Oxygen Species in Biology and Medicine" ( K. Asada and T. Yoshikawa, eds.) Elsevier Science, 91-93 (1994), 分担.
3)  松本 太:”理工系の基礎化学”, エース出版, (1999), 分担.
4)  松本 太:”イオン工学ハンドブック”, イオン工学研究所, 371-374,(2003), 分担.
5) 松本 太、益田秀樹“バイオチップの最新技術と応用, 2-3 ナノポーラス材料に基づくバイオチップ”, 株式会社シーエムシー出版, 33-41 (2004), 分担

特許
1) 炭素材料膜の作製方法及び該炭素材料膜を用いた非水電解質二次電池, 特開2002-63894(P2002-6389A)
2) リチウム二次電池用電解液及びリチウム二次電池, 特開2003-092135
3) 炭素材料膜の作成方法及び非水電解質二次電池, 特開2004-10988(P2004-10988A) 
4) 微小電極アレイおよびその製造法, 特開2004-285405(P2004-285405A)
5) DNA分析用アレイおよびそれを用いたDNA分析システムおよび分析法, 特開2004-288579(P2004-288579A)
6) 高規則性陽極酸化ポーラスアルミナナノホールアレイ構造を用いたナノピラー構造の作製方法および分離システム, 特開2006-62049 (P2006-62049A)
7) ナノホールアレーとその製造方法および複合材料とその製造方法, 特開2006-68827 (P2006-68827A)

 依頼講演
1) ”銅電析に及ぼすゼラチンおよび塩化物イオンの影響”, 第58回ファインプレーティング研究部会(2000)
2) “高配向アルミニウム[100]の直流エッチングにおけるトンネル携帯の観察及びその評価”, 第18回ARS六甲コンファレンス(2001)
3) “常温溶融塩の二次電池および金属めっきへの応用”, 2001年電気化学秋季大会(2001).
4) ”溶融塩めっき、常温型溶融塩の機能性めっきへの応用と浴中イオンの構造解析”, 第63回ファインプレーティング研究部会(2001)
5) “常温溶融塩の性質と応用”, 第32回電気化学会溶融塩化学講習会(2001)
6) “2002電気化学セミナー2, 1日でわかる電気化学測定法, 定電位法と定電流法”, 電気化学会(2002)
7) “電気化学測定法による固液界面反応系の解析”, 東京都立大, 第219回応化コロキウム(2002)
8) “常温溶融塩の金属めっきへの応用”, 旭電化工業株式会社(2002).
9) “2003電気化学セミナー2, 1日でわかる電気化学測定法, 定電位法と定電流法”, 電気化学会(2003)
10) “2004電気化学セミナー2, 1日でわかる電気化学測定法, 定電位法と定電流法”, 電気化学会(2004)

国際学会発表
1) “Electrochemical Interaction of Organosulfur at Au and Cu Electrode Surface”, 49th Annual Meeting of ISE, (poster presentation) (1998)
2) ” Electrochemical Interaction among Organosulfur Compounds,Metal Ion and Polyaniline at Cu and Au Electrode Surfaces”, Mt.Fuji Conference on Molecular and Polymer Based Electrodes (Post Meeting of 49th ISE Annual Meeting) (oral presentation) (1998)
3) “Cycling Behavior of Binder-Free Graphite-Lithium Intercalation Anode in AlCl3-EMIC-LiCl-SOCl2 Room-Temperature Molten Salt”, Asian Conference on Electrochemistry (ACEC) 2002 (poster presentation) (2002)  
4) “Arrangement of Ferritin on Highly Ordered Au Disk Array Fabricated with Anodic Porous Alumina”, 203th ECS Meeting (oral presentation) (2003).
5) “Fabrication of Bio-Molecular array with Controlled Size and Interval Using Highly Ordered Anodic Porous Alumina”, 204th ECS Meeting (poster presentation) (2003)  
6) “Flow-through Type DNA Array Using Ideally Ordered Anodic Porous Alumina”, 205th ECS Meeting (oral presentation) (2004).
7) “Fabrication of TiO2-Au Disk Arrays Using Ideally Ordered Anodic Porous Alumina“, The 55th anual meeting of ISE (oral presentation) (2004).
8)Fabrications and Optical Properties of Ideally Ordered Metal Hole Arrays from Anodic Porous Alumina“, The 55th anual meeting of ISE (poster presentation) (2004).
9) “Nanopatterning of DNA with Various Arrangements Using Ideally Ordered Anodic Porous Alumina”, 206th ECS Meeting (oral presentation) (2004).
10) “Study on TiO2 Photoexcitation Reaction Using Mosaic Disk Array from Ideally Ordered Anodic Porous Alumina”, 206th ECS Meeting (poster presentation) (2004).
11) “Fabrication of Highly Ordered Nanopattern of Biological Molecules Using Anodic Porous Alumina”, 2004 MRS Fall Meeting (poster presentation) (2004).
12) “Local Plasmon Resonance Properties of Highly Ordered Metal Nano-Dot Array Prepared Using Anodic Porous Alumina”, 2004 MRS Fall Meeting (oral presentation) (2004).
13) "Electrochemical Activity of Ordered Intermetallic PtPb Nanoparticles towards Formic Acid and Methanol Oxidation for Fuel Cell Applications", 210th ECS Meeting (poster presentation) (2006).
14) "Electrochemical Activity of Ordered Intermetallic PtPb Nanoparticles towards Formic Acid and Methanol Oxidation for Fuel Cell Applications", Gordon Research Conference on Fuel Cells (poster presentation) (2007).
15) “Ordered Intermetallic PtPb Nanoparticles for Direct Formic Acid Fuel Cell Applications”, 212th ECS Meeting (poster presentation) (2007).