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Research Center for Photonics/Electronic Materials
Released at 22:06, 06-Dec-2015         Viewed 1859 times

    Research Center for Photonics/Electronic Materials is oriented towards new materials and devices for major social demands in information and energy fields. Also, we work on designing and synthetizing artificial nano-layers compound films and devices with specific photoelectric properties in atomic scale. Major research fields: silicon based luminescent thin film materials, organic optoelectronic materials, microelectronics high-k grid materials, giant dielectric materials and wide band gap semiconductor optical thin film materials, as well as silicon based luminescent devices, integrated photonic control devices, integrated circuit, optical sensor, super capacitor, artificial intelligence bionic structures based on these compound materials.


 



    Research center follows the research regulation of material science and upholds the research theories of high standard, high efficiency, high accuracy from developed countries, such as Germany and the United States. Currently, research center had spent more than 4 million yuan for four Atomic Layer Deposition Systems, a process line of manufacturing nano-compound thin films optoelectronic prototype devices, an automatic system for testing and analyzing optoelectronic devices. According to practical needs, equipment and software systems in the laboratory had been promoted, which had achieved humanization, standardization, automation for researching.

    Research center has been consecutively supported by the three National Natural Science Fund projects and two major national basic research project "973" projects in recent years. We have published more than 80 papers in the domestic and foreign core journals, some of which the high efficiency silicon light-emitting diode aspects of the research works have been included by Springer light science vol 48 (2010) Integrated Silicon Optoelectronics in Chapter 9. The world's leading scientific and technical journals, Laser Focus World and Science Daily, has made a special and successive introduce about silicon ultraviolet light-emitting devices and color-changing electroluminescent devices based on our collaboration with the Rossendorf Research Center in Germany. Recent years, the luminous external quantum efficiency and other indicators of our self-designed rare earth ion-doped high efficiency silicon-based electroluminescent devices ranks the leading position of silicon-based light-emitting devices at home and abroad.

    Research Center is in accordance with the international advanced laboratory standards for the training of Graduates. Laboratory working conditions and research ability training are particularly suitable for Graduates and doctoral students who have a strong interest in scientific research and international development. The laboratory has established extensive cooperation and contact with Germany, Sweden, Italy, the United Kingdom, the United States and other countries. Competence Education of graduate students includes information collection ability, project planning ability, executive ability, practical ability, scientific and technical English writing ability, oral expression ability, et al. Research process involves a comprehensive professional technical education of modern optoelectronic, including integrated R & D skills training, such as automatic control, modern semiconductor technology, vacuum film technology, photoelectric testing technology, comprehensive analysis of materials. Qualified graduates can be a professional and technical personnel of information and energy companies, universities and colleges as well as research institutions in semiconductor chip circuit manufacturing, solar photovoltaic, lighting, optical communication, and super capacitors. Most outstanding graduated students via autonomous contact or recommended to advanced laboratory work abroad.

Introduction of academic leader

    Professor Sun Jiaming graduated from school of physics in Jilin University, and worked in Institute of Physics, Tokyo University in Japan, German Rossendorf research center. Now he is a professor of Nankai University. He has engaged in silicon-based electroluminescence research for more than 20 years and has made a significant progress in three types of silicon-based electroluminescent devices, such as silicon PN junction LED, Er doped nano-silicon and rare-earth ion implanted SiO2 MOS structure. He has won the annual advanced research awards of Rossendorf Research Center in Germany for 2004. Laser Focus World and Science Daily have published articles about his work on the topic of high-efficiency ultraviolet and wavelength from red to blue Adjustable silicon-based light-emitting devices .He returned to work in Nankai University and established the silicon photonics and energy storage devices laboratory. More than 80 papers have been published in core journals at home and abroad. He is a committee of the Chinese society of luminescence and Chinese doping nano-materials luminescence meeting.