2016

1. C. Iida, K. Akai, J. Murakami, M. Futamata, "Gap mode induced laser trapping of silver nanoparticles on thiophenol-covered silver substrates", Chemical Physics Letters, in press 2016, DOI: http://dx/doi/org/10.1016/j.cplett.2016.05.009.

2. K. Akai, C. Iida, M. Futamata, “Plasmon induced phtocatalytic reaction of thiol molecules”, submitted.

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2015

1. Masayuki Futamata*, Maho Ishikura, Chiaki Iida, Saori Handa, "Critical Importance of Gap Modes in Surface Enhanced Raman Scattering", Faraday Discussions 178, 203-220, 2015 (Invited).

2. Masayuki Futamata et al.,"Surface plasmon enhanced spectroscopies and time and space resolved methods: general discussions", Faraday Discussions 178 , 253-279, 2015.

3. Keitaro Akai, Chiaki Iida, Masayuki Futamata, "Gap mode Raman spectroscopy under attenuated total reflection geometry", Special Issue on SERS, J. Optics, 17, 11408 (2015, Invited).

4. Junichi Murakami, Masayuki Futamata, Yukimichi Nakao, Shin Horiuchi, Kyoko Bando, Umpei Nagashima, Kazuki Yoshimura, "Reduction of N2 with H2 on palladium surfaces at low temperatures", Chem. Phys. Lett. 618 (2015) 1-5.

 

2014 

1. Saori Handa, Yingying Yu and Masayuki Futamata*, “Adsorbed state of p-mercaptobenzoic acid on silver nanoparticles”, Vibrational Spectroscopy, 72 (2014) 128-134(selected paper).

2. Hayato Chiba, Hiroki Suzuki and Masayuki Futamata*, “Highly-sensitive Raman spectroscopy using a gap mode plasmon under an attenuated total reflection geometry”, Vibrational Spectroscopy, 2014 in press (Ms. No. 2332, http://dx.doi.org/10.1016/j.vibspec.2014.03.005).

3. Hiroki Suzuki, Hayato Chiba and Masayuki Futamata*, “Efficient immobilization of silver nanoparticles on metal substrates through various thiol molecules to utilize a gap mode in surface enhanced Raman scattering”, Vibrational Spectroscopy, 72 (2014)105-110 (Selected paper).

4. 二又　政之,“ギャップモードを利用した高感度ラマン分光”, Colloid and Interface Communication(C & I Commun., 日本化学会コロイドおよび界面化学部会・部会誌), 2014印刷中.

5. 半田紗織, 鈴木悠宜, 千葉駿人, 二又政之*, “表面増強ラマン散乱におけるギャップモードの重要性”, 表面科学, 35 (2014)特集号, 掲載決定済み印刷中(第33回表面科学会学術講演会注目講演).

6. Masayuki Futamata*, Maho Ishikura, Chiaki Iida, Saori Handa, “Critical Importance of Gap Modes in Surface Enhanced Raman Scattering”, Faraday Discussions 178 (invited, 2015), 203-220.

7. J. Baumberg, M. Nielsen, S. Bozhevolnyi, V. Podolskiy, T. Ebbesen, K. Lin, A. A. Kornyshev, J. Khurgin, J. Hutchison, K. Matczyszyn, J. George, E. Cortes, J. T. Hugall, A. Salomon, P. Dawson, O. Martin, S. Kotni, F. J. G. de Abajo, M. Flatté, M. Moskovits, D. Graham, S. Maier, M. Futamata, S.-H. Oh, J. Aizpurua, Z. Schultz and R. Sapienza, “Surface plasmon enhanced spectroscopies and time and space resolved methods: general discussion” Faraday Discussions 178 (2015) 253-279.

8. Tomomi Mukaiyama, Toru Yajima, Masayuki Futamata, “Distinct adsorbed states of DNA and RNA bases investigated by flocculation-assisted surface enhanced Raman scattering”, Electronic Journal of Surface Science and Nanotechnology (e-JSSNT) 13 (2015) 223-230.

9. Junichi Murakami, Masayuki Futamata, Yukimichi Nakao, Shin Horiuchi, Kyoko Bando, Umpei Nagashima, Kazuki Yoshimura, “Reduction of N2 with H2 on palladium surfaces at low temperatures”, Chem. Phys. Lett. 618 (2015) 1-5.

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2013

1. Toru Yajima, Yingying Yu and Masayuki Futamata, “Steric hindrance in cationic and neutral rhodamine 6G molecules adsorbed on Au nanoparticles”, Journal of Raman Spectroscopy,44 (2013) 406-411.

2. Yingying Yu, Saori Handa, Toru Yajima and Masayuki Futamata, “Flocculation of Ag nanoparticles elucidating adsorbed p-mercaptobenzoic acid by surface enhanced Raman scattering”, Chemical Physics Letters, 560(2013) 49-54.

3. 半田紗織、Yingying Yu, 谷島徹、二又　政之, “金及び銀ﾅﾉ粒子のflocculation を利用した超高感度ラマン分光と吸着状態の解析", 表面科学, 34 (2013) 449-454.

4. M. Futamata, S. Handa, H. Suzuki, H. Chiba,“Critical importance of a gap mode in Surface Enhanced Raman Scattering", Proc. SPIE Meeting, Vol. 8815 (2013) DOI: 10.1117/12.2025674.

5. Saori Handa, Yingying Yu and Masayuki Futamata*, “Adsorbed state of p-mercaptobenzoic acid on silver nanoparticles”, Vibrational Spectroscopy, 2014 in press (Ms. No. 2334, http://dx.doi.org/10.1016/j.vibspec.2014.03.007).

6. Hayato Chiba, Hiroki Suzuki and Masayuki Futamata*, “Highly-sensitive Raman spectroscopy using a gap mode plasmon under an attenuated total reflection geometry”, Vibrational Spectroscopy, 2014 in press (Ms. No. 2332, http://dx.doi.org/10.1016/j.vibspec.2014.03.005).

7. Hiroki Suzuki, Hayato Chiba and Masayuki Futamata*, “Efficient immobilization of silver nanoparticles on metal substrates through various thiol molecules to utilize a gap mode in surface enhanced Raman scattering”, Vibrational Spectroscopy, 2014 in press (Ms. No. 2332, http://dx.doi.org/10.1016/j.vibspec.2014.03.002).

8. 二又　政之,“ギャップモードを利用した高感度ラマン分光”, Colloid and Interface Communication(C & I Commun., 日本化学会コロイドおよび界面化学部会・部会誌), 2014印刷中.

9. Liqiang Luo, 丸山芳弘、二又政之、"近接場振動分光法", in「先端材料開発における振動分光法の応用」, 西岡、錦田、尾崎編、シーエムシー出版、2,013年.分担執筆.

 

2012

1. Toru Yajima, Yingying Yu and Masayuki Futamata, “Steric hindrance in cationic and neutral rhodamine 6G molecules adsorbed on Au nanoparticles”, Journal of Raman Spectroscopy, in press.

2. Toru Yajima, Yingying Yu, Masayuki Futamata,” Flocculation and SERS Activation of Au Nanoparticles Using Cationic and Neutral Cresyl Violet Molecules”, electronic-Journal of Surface Science and Nanotechnology, 10 (2012) 417-425.

3. Yingying Yu, Saori Handa, Toru Yajima and Masayuki Futamata, “Flocculation of Ag nanoparticles elucidating adsorbed p-mercaptobenzoic acid by surface enhanced Raman scattering”, Chemical Physics Letters, in press.

4. 二又　政之 (依頼), “表面増強ラマン散乱”, 表面科学, 33 (2012) 216-222.

 

2011

1. Masayuki Futamata*, Yingying Yu, Toru Yajima, “Elucidation of Electrostatic Interaction between Cationic Dyes and Ag Nanoparticles Generating Enormous SERS Enhancement in Solution”, Journal of Physical Chemistry C, 115 (2011) 5271-5279.

2. Toru Yajima, Yingying Yu and Masayuki Futamata*, “Closely adjacent gold nanoparticles linked by chemisorption of neutral rhodamine 123 molecules providing enormous SERS intensity”, Physical Chemistry and Chemical Physics, 13 (2011) 12454-12462.

3. 二又政之,”プラズモンナノ材料の開発と応用（第13章単一分子感度ラマン分光の基礎）及び（第14章単一分子感度ラマン分光技術のデバイス化及び生体分子分析への応用）”, シーエムシー出版（2011年5月）pp. 150-176、pp. 177-199.

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2010

1. Masayuki Futamata, Yingying Yu, Tomomi Yanatori, Takeshi Kokubun, “Closely Adjacent Ag Nanoparticles Formed by Cationic Dyes in Solution Generating Enormous SERS Enhancement, Journal of Physical Chemistry C, 114, 7502-7508 (2010).

2. 二又政之、“単分子分光”、ナノ計測の国際比較（科学技術振興機構)、2010年123-132.

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2009

1. Masayuki Futamata, Yoshihiro Maruyama, “Anion-induced LSP spectral changes correlating with SERS activity for cationic dye on immobilized Ag nanoparticles”, Proceedings of SPP-4, 2009, pp.391-392.

2. Masayuki Futamata, Yoshihiro Maruyama, “LSP and SERS activity of metal nanostructures fabricated by EBL and nanosphere overlayer”, Proceedings of SPP-4, 2009, pp.393-394.

3. 二又政之、“単分子分光”、ナノ計測の国際比較（科学技術振興機構)、2009年pp.199-205.

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2008

1. Masayuki Futamata, Yoshihiro Maruyama, “LSP spectral changes correlating with SERS activation and quenching for R6G on immobilized Ag nanoparticles”, Applied Physics B, 93, 117-130 (2008).

2. Masayuki Futamata, Yoshihiro Maruyama, “Anion-induced activation or quenching of SERS signal from R6G on immobilized Ag nanoparticles”, Proceedings of 21th ICORS, 2008, pp.391-392.

3. Masayuki Futamata, Yoshihiro Maruyama, “Fabrication of SERS substrates using EBL or nanosphere overlayer method”, Proceedings of 21th ICORS, 2008, pp.393-394.

4. 二又政之、城石英伸、松田直樹、” 固体電解質形燃料電池用触媒の局所反応解析及び長期性能改善のための研究”, NEDO 研究報告書, 2009.03. pp. 1-30.