微弱電流検出可能な近接場光学顕微鏡の開発と光機能性材料の観察

Research Project

Project/Area Number	13750055
Research Category	Grant-in-Aid for Young Scientists (B)
Allocation Type	Single-year Grants
Research Field	Applied physics, general
Research Institution	Shizuoka University
Principal Investigator	岩田太静岡大学, 工学部, 助教授 (30262794)
Project Period (FY)	2001 – 2002
Project Status	Completed (Fiscal Year 2002)
Budget Amount *help	¥2,200,000 (Direct Cost: ¥2,200,000) Fiscal Year 2002: ¥600,000 (Direct Cost: ¥600,000) Fiscal Year 2001: ¥1,600,000 (Direct Cost: ¥1,600,000)
Keywords	SNOM / 近接場光 / ナノスケール計測 / エレクトロクロミック / 光機能材料 / AFM / 微弱電流検出 / フォトキャリア / EC
Research Abstract	近接場光学顕微鏡(Scanning Near-field Optical Microscopy : SNOM)は近接場光を利用することで光の回折限界を超える高分解能を有する新しい光学顕微鏡である。SNOMは今日,有機分子,半導体、生物と様々な分野で活用されている。また、次世代の光エレクトロニクスデバイスの開発において光子と電子が相互作用する光機能材料の評価は重要である。得にナノメートルスケールの局所領域での光と電子の相互作用を解明することは大変重要な課題である。本研究では光機能性を有する半導体や導電性高分子の光励起電流や電界発光特性を局所的に観察できる新しい近接場光学顕微鏡システム(SNOM)を開発し、光機能材料や光機能エレクトロニクスデバイスにおけるナノスケール計測を行うことを目的とした。具体的には微弱電流が測定可能な新たな近接場光学顕微鏡(SNOM)を開発し、そのパフォーマンスを確認する実験を行った。SNOM探針の製作においてITO薄膜等の導電性透明電極を作製する光ファイバ探針先端や、金属プロープによる電場増強効果を利用したアパーチャレスタイプの近接場光学顕微鏡を応用した。これらのシステムを用いることで光導電性を有する材料ではファイバ探針から照射される近接場光により局所的に励起される光電流をその導電性ファイバ探針で直接測定でき、フォトキャリア分布像を取得できた。また、これらのシステムを用いて電圧印加により着消色する薄膜試料(エレクトロクロミック材料)のナノスケール局所発光及び着消色現象を観察し、新たなメカニズムや新しい光エレクトロニクスデバイス開発における知見を得た。

Report

(2 results)

2002 Annual Research Report
2001 Annual Research Report

Research Products

(8 results)

All Other

All Publications (8 results)

[Publications] F.Iwata, K.Mikage, H.Sakaguchi, N.Kitao, A.Sasaki: "Nanometer-scale electrochromic modification of NiO films using a novel technique of scanning near-field optical microscopy"Solid State Ionics. (発表予定). (2003)
- Related Report
  2002 Annual Research Report
[Publications] F.Iwata, K.Mikage, H.Sakaguchi, N.Kitao, A.Sasaki: "Current-sensing scanning near-field optical Microscopy using a metal probe for nanometer-scale observation of electrochromic film"J.Microscopy. (発表予定). (2003)
- Related Report
  2002 Annual Research Report
[Publications] F.Iwata, K.Mikage, H.Sakaguchi, N.Kitao, A.Sasaki: "Nanometer-scale electrochromic properties observed by scanning near-field optical microscopy capable of local current sensing"Trans.Mat.Res.Soc.Jpn.. 27. 361-364 (2002)
- Related Report
  2002 Annual Research Report
[Publications] Y.Kawata, S.Urahara, M.Murakami, F.Iwata: "The use of capillary force for fabricating probe tips for scattering type near-field scanning optical microscopy"Appl.Phys.Lett.. 82. 1598-1600 (2003)
- Related Report
  2002 Annual Research Report
[Publications] F. Iwata: "Nanometer-scale layer modification of polycarbonate surface by scratching with tip oscillation using an atomic force microscope"Wear. (to be published). (2002)
- Related Report
  2001 Annual Research Report
[Publications] F. Iwata: "Nanometer-scale modification of a urethane-urea copolymer film using local field enhancement at an apex of a metal coated probe"Nanotechnology. 13. 138-142 (2002)
- Related Report
  2001 Annual Research Report
[Publications] F. Iwata: "Nano wearing property of a fatigued polycarbonate surface studied by atomic force"J. Vac. Sci. & Technol. B. 19. 666-670 (2001)
- Related Report
  2001 Annual Research Report
[Publications] F. Iwata: "Photoconductive imaging in a photon scanning tunnelingmicroscope capable of point-contact current sensing using a conductive fiber"J. Microscopy. 202. 188-192 (2001)
- Related Report
  2001 Annual Research Report

微弱電流検出可能な近接場光学顕微鏡の開発と光機能性材料の観察

Principal Investigator

岩田 太 静岡大学, 工学部, 助教授 (30262794)

¥2,200,000 (Direct Cost: ¥2,200,000)

Report

Research Products

[Publications] F.Iwata, K.Mikage, H.Sakaguchi, N.Kitao, A.Sasaki: "Nanometer-scale electrochromic modification of NiO films using a novel technique of scanning near-field optical microscopy"Solid State Ionics. (発表予定). (2003)

Related Report

[Publications] F.Iwata, K.Mikage, H.Sakaguchi, N.Kitao, A.Sasaki: "Current-sensing scanning near-field optical Microscopy using a metal probe for nanometer-scale observation of electrochromic film"J.Microscopy. (発表予定). (2003)

Related Report

[Publications] F.Iwata, K.Mikage, H.Sakaguchi, N.Kitao, A.Sasaki: "Nanometer-scale electrochromic properties observed by scanning near-field optical microscopy capable of local current sensing"Trans.Mat.Res.Soc.Jpn.. 27. 361-364 (2002)

Related Report

[Publications] Y.Kawata, S.Urahara, M.Murakami, F.Iwata: "The use of capillary force for fabricating probe tips for scattering type near-field scanning optical microscopy"Appl.Phys.Lett.. 82. 1598-1600 (2003)

Related Report

[Publications] F. Iwata: "Nanometer-scale layer modification of polycarbonate surface by scratching with tip oscillation using an atomic force microscope"Wear. (to be published). (2002)

Related Report

[Publications] F. Iwata: "Nanometer-scale modification of a urethane-urea copolymer film using local field enhancement at an apex of a metal coated probe"Nanotechnology. 13. 138-142 (2002)

Related Report

[Publications] F. Iwata: "Nano wearing property of a fatigued polycarbonate surface studied by atomic force"J. Vac. Sci. & Technol. B. 19. 666-670 (2001)

Related Report

[Publications] F. Iwata: "Photoconductive imaging in a photon scanning tunnelingmicroscope capable of point-contact current sensing using a conductive fiber"J. Microscopy. 202. 188-192 (2001)

Related Report

岩田太静岡大学, 工学部, 助教授 (30262794)