Keynote Speakers of Past Sessions

ICOCT 2022:

Prof. Yu Duan, Changchun College of Electronic Technology, China

段羽教授 吉林大学/长春电子科技学院（双聘教授）

Yu Duan, Tang Aoqing distinguished professor. He graduated from Northwestern Polytechnic University with a bachelor's degree and a doctor's degree from Jilin University, and received three years of post doctoral training in the National Nano Laboratory in Italy. Now he is engaged in the research of organic optoelectronic devices applied to display / lighting, photovoltaic, smart window, as a principle investigator work for more than 10 scientific research projects. Published more than 100 papers, and applied for more than 40 invention patents, and served as the editor of Journal Electronic Materials.

Title: Key technologies of flexible transparent thin film optoelectronic devices

Speech Abstract: Organic optoelectronic devices represented by organic light emitting diode (OLED) have gone out of the laboratory and are gradually produced on a large scale. However, due to the special application requirements such as flexible and transparent, there are still some key scientific and technological problems to be solved, such as thin film encapsulation and transparent electrode. The low-temperature ALD is expected to achieve a breakthrough in the bottleneck problems such as improving the film conductivity, improving the energy level matching, increasing the water vapor barrier and reducing the damage in the fabrication process. Exploring the application of ALD technology in transparent flexible organic electroluminescent devices can not only solve the bottleneck problem of OLED practicality, but also be used in other organic electronic devices, such as organic photovoltaic devices (OPV), Organic thin film transistor (OTFT) devices and other fields play an important role in opening up high-quality film preparation processes that are "friendly" to organic materials, and providing new solutions for the research of transparent and flexible electronic devices.

Prof. Yang Yue, Xi'an Jiaotong University, China

岳洋教授，西安交通大学

Yang Yue received the B.S. and M.S. degrees in electrical engineering and optics from Nankai University, China, in 2004 and 2007, respectively. He received the Ph.D. degree in electrical engineering from the University of Southern California, USA, in 2012. He is a Professor with the School of Information and Communications Engineering, Xi'an Jiaotong University, China. Dr. Yue’s current research interest is intelligent photonics, including optical communications, optical perception, and optical chip. He has published over 200 peer-reviewed journal papers (including Science) and conference proceedings with >9,000 citations, five edited books, two book chapters, >50 issued or pending patents, >170 invited presentations (including 1 tutorial, >20 plenary and >30 keynote talks). Dr. Yue is a Senior Member of the Institute of Electronic and Electrical Engineers (IEEE). He is an Associate Editor for IEEE Access, Editor Board Member for three other scientific journals, Guest Editor for >10 journal special issues. He also served as Chair or Committee Member for >80 international conferences, Reviewer for >60 prestigious journals.

Title: Optical Fiber Communications Using OAM Mode-Division Multiplexing

Speech Abstract: 

Optical fiber communications, as the backbone of today’s telecommunications infrastructure, supports voice, video and data transmission through global networks. One critical issue in its research is the challenge of meeting the needs of increasing the data capacity. This talk presents high-speed optical fiber communications using orbital angular momentum (OAM) mode-division multiplexing. We will show mode-division and wavelength-division multiplexing of OAM modes with 1.6-Tb/s data capacity through 1.1-km of ring-core fiber. Moreover, several types of ring-core optical fibers for OAM modes will be presented, including multi-core ring fiber supporting thousands of OAM modes, coupled ring-core fiber with large negative dispersion, non-zero dispersion-shifted ring fiber to balance the chromatic dispersion and nonlinearity.

Prof. Lin Chen, University of Shanghai for Science and Technology, China

陈麟教授，上海理工大学

Lin Chen was designated Shanghai "Dawn scholar", "Chengguang scholar", "Top-Notch Young Talents", "Rising-Star", "Pujiang talent" and other talent titles. I was also award Publons Peer Review Award (2018 and 2019) and Outstanding Reviewers of Chinese Laser Press. As the first person in charge, he have undertaken a number of national level projects, including the national key R&D plan "major scientific instrument and equipment development" (chief scientist), two national major instrument projects (project), National Natural Foundation of China (general & Youth) and several projects from Shanghai. At present, he have published more than 80 peer reviewed papers in Science Citation Indexed journal with more than 2000 citations and H-index 26 (including 4 Highly Cited Paper), such as Light: Science & Applications, Advanced Optical Materials, etc. He have also applied for more than 40 invention patents, 21 Chinese and 1 US patents were authorized. Among them, four invention patents have been transformed into scientific research achievements, with a direct economic benefit of 28.79 million. I am currently the Editorial Board Member of Frontiers in Physics, Guest Editor and Corresponding Expert of Frontiers of Information Technology & Electronic Engineering.

Title: Terahertz spectroscopy and imaging

Speech Abstract: In this presentation, we introduced the recent advance of terahertz spectroscopy and imaging technology in university of shanghai for science and technology, including terahertz introduction, source, functional components, antenna, time domain spectroscopy, SNOM, and security human imaging system. Since terahertz technology has developed quickly in recent ten years, it's now showing huge applications in public security, biomedicine, communication and other related fields.

ICOCT 2021:

Prof. Yu Duan, Changchun College of Electronic Technology, China

段羽教授 吉林大学/长春电子科技学院（双聘教授）

Professor Duan，School of Electronic Science and engineering, Jilin University. Engaged in the research of organic optoelectronic devices for display / lighting, published more than 100 SCI papers, obtained 12 authorized patents, and served as editor of journal electronic materials. He has presided over and participated in more than 10 projects, such as the "863" and "973" projects of the Ministry of science and technology, as well as the National Natural Science Foundation of China, and has made more than 20 invited reports at academic conferences at home and abroad. Main research achievements: the self-developed film water vapor permeability test equipment introduced high-performance film packaging technology into gas permeability test for the first time, obtained the water vapor test accuracy of 10e-6g / m2 · day, won the first prize of science and technology progress award of China Federation of Commerce and the second prize of science and Technology Achievement Award of Jilin Province (1 item), and was selected into the seventh batch of Changbai Huigu talents in 2017, In 2018, he was awarded the youth science and technology award of Jilin Province.

Title: The Application of Atomic Layer Deposition for Organic Electronics

Speech Abstract: In 2019, the report transparent display technology and market forecast released by display research predicts that the market scale of transparent display will reach US $259.1 billion by 2023, showing huge market demand. Therefore, countries all over the world define the next generation display as transparent and flexible, that is, transparent flexible organic light emitting device （TFOLED）. However, in order to truly realize TFOLED the lack of flexible transparent conductive film and encapsulation technology is the core problem that can not be avoided. The preparation scheme of remote plasma atomic layer deposition (ALD) proposed by us is expected to make a breakthrough in the bottleneck problems such as improving film conductivity, improving energy level matching, increasing water vapor barrier and reducing preparation process damage. Exploring the application of ALD technology in transparent flexible organic electroluminescent devices can not only solve the bottleneck problem of TFOLED practicability, It can also play an important role in other fields of organic electronic devices, such as organic photovoltaic device organic thin film transistors, open up the high-quality film preparation process "friendly" to organic materials, and provide a new idea for the research of more transparent and flexible electronic devices.

Prof. Yaoliang Song, Nanjing University of Science and Technology, China

宋耀良教授 南京理工大学

Yaoliang Song was born in June 30, 1960. He received the B.Eng,the M.Eng. and the D.Eng. degrees in Electrical Engineering from Nanjing University of Science and Technology, China, in 1983, 1986, and 2000 respectively. He had been a Researcher Fellow at the Department of Engineering Science at the University of Oxford from Sept. 2004 to Sept. 2005. Presently, He is a Professor at Nanjing University of Science and Technology and Senior Member of IEEE and CECA. His major research interests are in UWB Radar Imaging，MIMO radar，Metamaterials, UWB communications, and Advanced Signal Processing, etc. He has undertaken a number of projects such as the National Natural Science Foundations and the International Cooperation Funds, etc. He has won national defense science and technology award, Ministry and provincial science and technology progress awards.

Title:Ultra-Wideband Multi-Beam Forming of The Synthesized RF System Based on True-Time-Delay Technique

Speech Abstract: Synthesized RF system is the development direction of complex electronic system platform in the future, and the implementation of synthesized RF system is the key technology. This paper focuses on the multi beam forming technology of UWB synthesized RF system. The cost of hardware implementation based on the traditional TTD (true-time-delayer) beam-forming technology is high and the scanning range is limited. In this paper, we firstly address a multi beam-forming approach based on true time delayers (TTD). Then we build a lens-based array system which can form high gain beams with a small number of antenna elements and also establish the mathematical model of the lens. Lastly, we proposed a radiation pattern synthesis method to scan continuously and radiate multi-beams of different function signals simultaneously. Simulation results verify the effectiveness of the proposed implementation and scanning method.