This book provides concepts and experimental demonstrations for various types of MLD and organic multiple quantum dots (Organic MQDs), which is a typical tailored organic thin-film material. Possible applications of MLD to optical interconnects, energy conversion systems, molecular targeted drug delivery, and cancer therapy are proposed.
This book provides concepts and experimental demonstrations for various types of MLD and organic multiple quantum dots (Organic MQDs), which is a typical tailored organic thin-film material. Possible applications of MLD to optical interconnects, energy conversion systems, molecular targeted drug delivery, and cancer therapy are proposed.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Tetsuzo Yoshimura was born in Tokyo, Japan in 1951, and graduated from Tokyo Metropolitan Aoyama High School in 1970. He received the B.Sc. degree in Physics from Tohoku University in 1974, and the M.Sc. and Ph.D. degrees in Physics from Kyoto University in 1976 and 1985, respectively. From 2001 to 2017, he was a professor at Tokyo University of Technology, where he extended the research on MLD-based nanotechnologies and SOLNET-based optoelectronics for optical interconnects, solar energy conversion systems, and cancer therapy. He is currently a professor emeritus at Tokyo University of Technology, a scientific writer, and a musician in a rock group, the TYNC.
Inhaltsangabe
1. Introduction. 2. Examples of Inorganic Tailored Materials. 3. Molecular Layer Deposition (MLD. 4. Selective MLD. 5. Expected Impacts of MLD on Photonics/Electronics Field. 6. Polymer Multiple Quantum Dots (MQDs) Fabricated by MLD. 7. Theoretically-Predicted Electro-Optic (EO) Effect in Polymer MQDs. 8. Organic EO Materials. 9. Integrated Light Modulators and Optical Switches. 10. Self-Organized Lightwave Network (SOLNET). 11. Integrated Optical Interconnects and Optical Switching . 12. Solar Energy Conversion Systems. 13. Expected Applications of LP-MLD to Cancer Therapy. 14. Review of Forefront Research on MLD. Appendix I: Additional MLD Processes. Appendix II: Analogy between Photons and Electrons. Epilogue.
