Organic Light Emitting Diodes (OLED),
Organic Electroluminescent Devices (Organic EL):

1) "Wet Coated Organic Light Emitting Diode Devices", Y. Suzuri, J. Surf. Finish. Soc. Jpn., 63, 341-344 (2012). (in Japanese)
("塗布方式による有機ELデバイス", 硯里善幸, 表面技術, Vol.63, No.6, pp. 341-344 (2012).)

2) "Design and Synthesis of electron-transporting materials for High-performance OLED", H. Sasabe and J. Kido, ISBN 978-4-905545-64-4, Johokiko, 27 pages (2012). (in Japanese) ("高性能有機ELデバイスのための電子輸送材料の設計・合成事例と物性評価", 笹部久宏, 城戸淳二, ISBN 978-4-905545-64-4, 情報機構, (2012).)

3) "Electron Transport Material", H. Sasabe and J. Kido, in Fundamentals of High-Efficiency OLEDs: Basic Science to Manufacturing of Organic Light-Emitting Diodes, Edited by D. J. Gaspar and E. Polikarpov, Taylor & Fransis Books, Inc, Chapter 9 (in press).

4) "Multifunctional Materials in High-Performance OLEDs: Challenges for Solid-State Lighting'", H. Sasabe and J. Kido, Chem. Mater., 23, 621–630 (2011).

Solar Cells, Organic Solar Cells:
1) "Development of poly crystalline Si solar cells by using low-purity Si substrates", F. Hirose, in High Efficiency Solar Cells (Koukouritsu Taiyoudenchi), Edited by T. Yoshida, ISBN 978-4-86469-034-8, NTS, Tokyo, Chapter 4, Section 2, pp. 216-221 (2012). (in Japanese)
("低純度シリコンを用いた多結晶太陽電池の開発", 廣瀬文彦, 高効率太陽電池, 吉田隆発行, ISBN 978-4-86469-034-8,エヌ・ティー・エス, 第4章2節, pp. 216-221, (2012).)

2) "Efforts for Ru dye with a long term stability", F. Hirose, in Technologies for Durable and Long Life Organic Devices and Materials, ISBN 978-4-905545-15-6, Johokiko, Tokyo, Chapter 1, Section 2 (2011). (in Japanese)
("Ru錯体色素の劣化の評価と長寿命化に向けた取り組み", 廣瀬文彦, 有機デバイス・材料の耐久性向上および長寿命化技術, ISBN 978-4-905545-15-6, 情報機構, 第1章第2節第7項 (2011).)

3) "IR absorption spectroscopy", F. Hirose, in Material Research, Evaluation and Modularization Technologies for Dye Sensitized Solar Cells, Edited by H. Segawa and S. Uchida, ISBN 978-4-903413-86-0, S&T publishing, Tokyo, Chaper 4, Section 4 (2010). (in Japanese)
("赤外吸収分光評価", 廣瀬文彦, 色素増感太陽電池のモジュール化・材料開発・評価技術, 瀬川浩司,内田聡編修, ISBN 978-4-903413-86-0, S&T出版, 第4編4章 (2010).)

4) "Dye adsorption on TiO2 surfaces", F. Hirose, in Technological Application for Interfacial Control of High Performance Organic Devices, CMC Publishing, Tokyo, Chapter 1, Section 8, pp.97-104 (2009). (in Japanese)
("増感色素の酸化チタン表面の吸着構造の評価", 廣瀬文彦, 有機デバイスのための界面評価と制御技術, 岩本光正監修, ISBN 978-4-7813-0159-4, シーエムシー出版, 第I編 第8章 pp.97-104 (2009).)

Conducting Polymers:
1) "Development of highly-conducting polymer films", T. Sano, in Physical Properties and Evaluation of Conductive Polymers for High Performance Organic Electronic Devices, Edited by M. Onoda, ISBN978-4-7813-0564-6, CMC Publishing, Tokyo, Chapter 12, Section 3, pp. 145-152 (2012). (in Japanese) ("高い導電率を有する導電性高分子膜の開発", 佐野健志, 有機電子デバイスのための導電性高分子の物性と評価, 小野田光宣監修, ISBN 978-4-7813-0564-6, シーエムシー出版, 第12章 3節, pp. 145-152 (2012).)

Polymer Nanocomposites:
1) "Polymer nanocomposites containing vapor grown carbon fibers aligned by magnetic or electric field processing", T. Takahashi, K. Yonetake, in Polymer Nanocompoites Handbook, Edited by R.K. Gupta, E. Kennel, and K.-J. Kim, ISBN 978-0-8493-9777-6, CRC Press, USA, Chapter 10, 223-252 (2009).
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