研究者情報

研究者名 安達 照(あだち あきら)
研究分野 物理教育(新しい電子機器を使った物理教材開発)/有機エレクトロニクス(有機EL、電気伝導)
研究業績
  • 「スマートフォンに接続した超音波センサーを用いた運動の法則の実験 」、物理教育、67(1)(2019)31.
  • 「スマートフォンの加速度センサーを用いた水平投射実験 」、応用物理教育、42(1)(2018)57.
  • 「スマホのソフトウェア開発とそれを用いた物理教育」、平成29年度東レ理科教育賞受賞作品集、6-10頁.
  • 「スマートフォンの加速度センサーを用いた物理実験(人の運動への応用) 」、日本理化学協会研究紀要、42(2016)5.
  • 「スマートフォンの加速度センサーを用いた運動の法則、定常波実験 」、応用物理教育、42(1)(2016)131.
  • “Synthesis and Properties of Silicon-Bridged Bithiophenes and Application to EL Devices”, Synth. Met. , 137 (2003) 1007.
  • “Synthesis of novel bithiophene derivatives with an organosilanylene bridge, and their applications to electron-transporting materials in EL devices”, J. Organomet. Chem., 642 (2002) 137.
  • “Synthesis and properties of novel σーπ alternating polymers with triphenylamine and organosilicon units” Appl. Organomet. Chem., 15 (2001) 939.
  • “Effects of Conjugated Substituents on the Optical, Electrochemical, and Electron-Transporting Properties of Dithienosiloles”, Organometallics, 20 (2001) 4800.
  • “Synthesis and properties of σーπ conjugated alternating polymers consisting of carbazole and organosilicon units” Appl. Organomet. Chem., 15 (2001) 604.
  • “Synthesis of Polymers Composed of Alternating Diphenylene¬dithienosilole and Diethynylenesilylene Units and Their Applications to Hole-Transport in Double Layer EL Devices”, Macromolecules, 33 (2000) 8890.
  • “Synthesis and Ring Opening Reactions of 1,8-Silanonaphthalenes”, Organometallics, 19 (2000) 5582.
  • “Synthesis of Polymers with Alternating Organosilanylene and Oligothienylene Units and Their Optical, Conducting,and Hole-Transporting Properties”, Organometallics, 19 (2000) 4492.
  • “Preparation and Properties of π-Conjugated Polymer with Phenazasiline Unit”, Chem. Lett. (2000) 688.
  • “Oraganic Electroluminescence of Silole-Incorporated Polysilane”, J. Luminescence 87 (2000)1174.
  • “Synthesis and Properties of Polymers Having Dithienosilole Units”, Macromolecular Chemistry and Physics 201 (2000) 851.
  • “Organic Electroluminescent Devices using Organosilicon Polymers Contannig Phenylene or Diethinylanthracene Units”, Appl. Organomet. Chem.13 (1999) 865.
  • “Synthesis and Optical, Electrochemical, and Electron-Transporting Properties of Silicon-Bridged Bithiophenes”, Organometallics 18 (1999) 1453.
  • “Synthesis and Properties of Organosilicon Polymers Contanning 9, 10-Diethynylanthracene Units with Highly Hole-Transporting Properties”, J. Organometallic Chem. 592 (1999) 52.
  • “Energy Barrier Height for Electron Injection in Organic Electroluminescent Devices with Dithienosilole”, Jpn. J. Appl. Phys. 38 (1999) 2148.
  • “Terphenyl and Poly (p-phenylene) Derivatives Contanning Fused 1, 2, 4-Thiadiazole Units”, Chem. Lett. (1998) 545.
  • “Multi-layer Organic Electroluminescent Device with Dithienosilole Derivative”, Chem. Lett. (1998) 1233.
  • “The Electronin Spin Relaxation Analysys of Conducting Polypyrrole Films under Oxygen”, J. Modern Application of EPR//ESR: From Biopfysics to Materials ,Ed C. Z. Rudowicz and H. Hiraoka, Springer (1998)233.
  • “Electron spin relaxation studies of conducting polypyrroles: The diifference of the relaxation processes between highly conducting and semiconducting polypyrroles”, Solid State Commn. 107 (1998) 203.
  • “Multi-layer Electroluminescent Device using Organosilicon Polymers as Hole Transport Layer”, Synth. Met. 91 (1997) 333.
  • “Efect of Oxygen and Polypyrrole as Studied by Conductivity and ESR measurements”, Bull. Chem. Soc. Jpn. 69 (1996) 811.
  • “Effect of UV irradiation on polypyrrole as studied by electron spin resonance”, Synth. Met. 73 (1995) 101.
卒業研究

授業

担当授業
  • 基礎力学I,II
  • 基礎電磁気学I,II
  • 物理・化学ユニットプログラム
  • 実感する科学II
授業配布物

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