Name: |
Electronic Processes in Organic Optoelectronic |
Catalog Number: |
412071Y |
Hours/Credits: |
40/2 |
Prerequisite(s): |
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Physical Chemistry, Organic Solids, Photochemistry and Photophysics |
Course Description: |
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This course is primarily designed for postgraduate students majoring in physical chemistry, organic solids, also suitable for postgraduate students majoring in materials science or photophysics as a selected course. This course mainly aims to elucidate the electronic processes in organic solids, optoelectronic properties, and issues related to the fabrication of organic electronic devices from the perspective of electronic structure theory of organic molecules. It is expected that students become to be familiar with such emerging interdisciplinary subject; be aware of the relationships between this subject with others such as chemistry, physics, materials science, biology, electronic information; and get to know the investigation methods in organic electronics. It is a foundation subject for the fields of physical chemistry, optoelectronic materials, and organic solids. It is also helpful for researchers in fields of polymer chemistry, physics, and photophysics. |
Course Content: |
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Chapter 1 Introduction to the concept and brief development history of organic materials, properties of organic optoelectronic materials, organic electronics and its applications
Chapter 2 Synthesis, structures and properties of organic optoelectronic materials, including small-molecular-weight organic semiconductor materials, polymer semiconductor electronic materials, charge transfer complexes, and synthetic metals
Chapter 3 Basic principles of photochemistry and photophysics, including molecular excited states and their decay, energy and electron transfer of excited states, spectroscopic performances of organic aggregated states
Chapter 4 Photo-, energy-related electronic processes in organic materials, including the types, generation, transportation, diffusion of excitons, the light-emitting processes of organic materials, the influence of molecular conformation and environmental factors on the light-emitting performances of organic materials
Chapter 5 Electronic processes in organic materials related to the electronics properties, including the types, generation of charge carriers; photo-generated charge carriers, charge carriers via doping or injection; and the conducting properties of organic materials
Chapter 6 Organic light-emitting diode (OLED), including the structural features of OLED devices fabricated from small-molecular-weight organic compounds and polymers, phosphorescence–emitting OLED, quantum efficiency of OLED and so on
Chapter 7 Organic field effect transistor (OFET), including the structures, operation principles of OFET, performances characterization of OFET devices, and the organic semiconductor materials used in OFETs
Chapter 8 Organic photovoltaics cells (OPVC), including the working processes of OPVC, the basic principles of photo-electricity conversion, types of OPVC and the related operation parameters, and the organic materials used in OPVCs
Chapter 9 Chemical sensors and information storage based on organic materials, including the concept of sensing, the responding mechanism of organic sensors, the design and new developments of fluorescence sensors, and photo-storage and electricity-storage based on organic materials
Chapter 10 Organic lasing, including the principle of lasing and components of lasers, the operation features of lasers, optical-pumped laser based on organic dyes, optical-pumped laser based on organic semiconductors, and electricity-pumped organic lasing |
TextBooks: |
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1)Shikang Wu, Pengfei Wang, Introduction to Organic Electronics, Chemical Industry Press, Beijing, 2010. or
2)Wei Huang, Baoxiu Mi, Zhiqiang Gao, Organic Electronics, Scientific Press, Beijing, 2011,
Recommended textbooks:
1)M. Pope, Renyuan Qian, Electronic Processes in Organic Crystals, Shanghai Science &Technology Press, Shanghai, 1978.
2)M. Schwoerer, H. Wolf, Organic Molecular Solids, Wiley-VCH, 2007.
3)K. Hagen Ed. Organic Electronics: Materials, Manufacturing, and Applications, Wiley-VCH, 2006.
4)K. Müllen, U. Scherf, Organic Light Emitting Devices: Synthesis, Properties and Application, Wiley-VCH, 2006.
5)M. Pope, C. E. Swenberg, Electronic Processes in Organic Crystals and Polymers, Oxford University Press, 1999. |
Reference: |
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