謝■辞■参考文献 比較的低濃度の銀ナノワイヤー分散液を高速塗布することにより凝集体の生成を抑制すること,(2)塗布後,本研究で開発した「局所光溶接」により,ミクロな銀ナノワイヤー交叉点でのみエバネッセント場増強される光電界による熱的な「溶接」が交叉点での接触電気抵抗を大幅に下げること,の両者が有効であることが証明された.これら2点の機械加工的な着想をナノテクノロジーに導入したことが,本研究に成果をもたらしたといえよう. 本研究は,公益財団法人天田財団 ■■■年度一般研究開発助成(■■■ ■■■ ■■■■ )の支援を受けて実施した.ここに謝意を表します.また,アンテナ特性の測定技術については大阪電気通信大学工学部電気電子工学科 海老原聡教授の助言を得,自作シートアンテナへのSMAコネクタ接続などについては,同大学実験サポート課の穴瀬敏幸さん,井口直哉さんにお世話になりました. ■) Q. Li (Ed.): “Anisotropic Nanomaterials: Preparation, (2015), Springer, ) N. P. Dasgupta, J. Sun, C. Liu, S. Brittman, S. C. Andrews, J. Lim, H. Gao, R. Yan, and P. Yang: “Semiconductor Nanowires – Synthesis, Characterization, and Applications”, (2014), Adv. Mater. 26, 2137-2184. ■) E.C. Garnett, W. Cai, J.J. Cha, F. Mahmood, S.T. Connor, M.G. Christoforo, Y. Cui, M.D. McGehee and M.L. Brongersma: “Self-limited plasmonic welding of silver nanowire junctions”, (2012), Nat. Mater. 11 No.3 241-249. ■) I. F. Akyildiz, M. C. Vuran: “Wireless Sensor Networks”, ■) トランジスタ技術SPECIAL編集部編: ワイヤレス給電の技術と実際, (2012), グリーン・エレクトロニクス No.6. ■) M. Song, P. Belov and P. Kapitanova: “Wireless power transfer in electromagnetics”, (2017), Appl. Phys. Rev. 4, 021102, 1-20. and Applications”, Properties, Heidelberg. (2010), John Wiley & Sons Ltd. inspired the modern trends by surface: Balancing among ■) S. Hekal, A. Allam, A.B. Abdel-Rahman, R.K. Pokharel: “Compact Size Wireless Power Transfer Using Defected Ground Structures”, (2019), Springer. ■) E. Guenin: “Microwave Engineering of Nanomaterials From Mesoscale to Nanoscale”, (2016), Jenny Stanford Publishing. ■) H. M. Kingston: “Introduction to Microwave Sample Preparation: Theory and Practice”, (1989), Anal. Chem., 61, 4, 309A. ■■) A. Tomioka, A. Masuda, S. Fushii, Y. Matsuba, and Y. Haru: “Role of polyvinylpyrrolidone bound on silver nanowire electrical conductance, sulfuration resistance, and flexibility”, (2017), Phys. Status Solidi B, 254, 1600717, 1-5. ■■) A. Tomioka, K. Ozasa, M. Hirayama, H. Tsukamoto, A. Masuda, Sh. Maeda and M. Kawabata: “Lowered Melting Point of Polyvinyl Pyrrolidone Bound 1D Silver Nanowires”, (2014), Proc. 9th IEEE Int. Conf. Nano / Micro Eng. Mol. Sys., 660-663. ■ ) Z. L. Wang: “Transmission Electron Microscopy of Shape-Controlled Nanocrystals and Their Assemblies”, (2000), J. Phys. Chem. B 104, 1153–1175. ■■) Y. Sun, B. Mayers, T. Herricks, and Y. Xia: “Polyol Synthesis of Uniform Silver Nanowires: A Plausible Growth Mechanism and the Supporting Evidence”, (2003), Nano Lett. 3, 955-960. ■■) B. J. Wiley, Y. Chen, J. M. McLellan, Y. Xiong, Z. Y. Li, D. Ginger, and Y. Xia: “Synthesis and Optical Properties of Silver Nanobars and Nanorice”, (2007), Nano Lett. 7, 1032-1036. ■■) T. Okada, K. Shinbo and A. Tomioka (Short Oral and Poster): “Silver Nanowire Patterning on Flexible Sheets for Wireless Power Transfer Antenna as a Replacement for Rigid Batteries”, (2020), the 11th Int. Symp. Organic Molecular Electronics, Toyota, Aug 6 - 8. ■■) T. Okada and A. Tomioka (Short Oral and Poster): “Silver Nanowire Patterning on Flexible Sheets for Wireless Power Transfer Antenna as a Replacement for Rigid Batteries”, (2021), 2021 KJF Int. Conf. on Organic Materials for Electronics and Photonics, Online, Aug 29 - 31. − 286 −
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