Followed by "Introduction to Academicians of the Department of Information Technology Science of the Chinese Academy of Sciences (12)" (in alphabetical order of surname).
Zhang Rong, male, born in February 1964 in Yancheng City, Jiangsu Province, a native of Huai'an, Jiangsu, academician of the Chinese Academy of Sciences, Secretary of the Party Committee of Xiamen University (vice minister level), President of the Party School, Director of the National Integrated Circuit Industry-Education Integration Innovation Platform of Xiamen University, and President of Xiamen Future Display Technology Research Institute.
In 1983, Zhang received a bachelor's degree from Nanjing UniversityIn 1986, he received a master's degree from Nanjing UniversityIn 1995, he received his Ph.D. degree from Nanjing UniversityIn February 2002, he was appointed as Assistant to the President of Nanjing UniversityIn November 2006, he was appointed as a member of the Standing Committee of the Party Committee and Vice President of Nanjing UniversityIn April 2010, he was appointed as a member of the Standing Committee of the Party Committee and Executive Vice President of Nanjing UniversityIn October 2013, he was appointed as the President (Vice Minister level) and Deputy Secretary of the Party Committee of Shandong UniversityIn July 2017, he was appointed as the President (Vice Minister level) and Deputy Secretary of the Party Committee of Xiamen UniversityIn April 2022, he was appointed as Secretary of the Party Committee of Xiamen University (Vice Minister level);In November 2023, he was elected as an academician of the Chinese Academy of Sciences.
Rong Zhang is mainly engaged in semiconductor optoelectronic materials, devices and physics. On the basis of solving basic physical problems and overcoming the problems of material preparation, he has successfully developed new high-performance ultraviolet detection and solid-state light source devices, and developed application fields such as high-sensitivity air-space-to-sun blind ultraviolet detection and imaging, and has made systematic and creative achievements and produced significant social and economic benefits. [25] He led the research group to break through a number of core technologies for the preparation of high-quality nitride semiconductor materials, and successfully developed a series of new materials and new devices with advanced technical indicatorsA series of photoelectric physics models of nitride semiconductors have been established, which have filled the gaps in the basic physical parameters of nitride semiconductors and enriched and developed the physical knowledge of nitride semiconductor devicesA series of new high-performance optoelectronic devices have been developed, especially the sun-blind ultraviolet detector and single-photon ultraviolet detector have maintained the international leading level, and have been successfully promoted and applied in many fields.
Zheng Hairong, male, Hui nationality, born in November 1977 in Changfeng County, Anhui Province, academician of the Chinese Academy of Sciences, member of the Party Committee and vice president of the Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, director of the National High-performance Medical Device Innovation Center, director of the Key Laboratory of Medical Imaging Science and Technology System, director of the National Medical Imaging Technology and Equipment Engineering Laboratory, Paul CLauterbur) is the director of the Biomedical Imaging Research Center.
From September 1996 to July 2002, Zheng Hairong studied for bachelor's and master's degrees in the Department of Materials Processing and Control Engineering of Harbin Institute of TechnologyFrom August 2002 to May 2006, he studied for a Ph.D. in the Department of Mechanical Engineering, School of Engineering, University of ColoradoFrom May 2006 to September 2007, he worked as a postdoctoral fellow and project scientist at the School of Engineering, University of California, DavisIn September 2007, he returned to China and worked at the Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, successively as an associate researcher and researcherIn November 2011, he was appointed as the director of the National and Local Joint High-end Medical Imaging Technology and Equipment Engineering LaboratoryIn 2013, he was awarded the National Science Grant for Distinguished Young ScholarsFrom 2014 to 2021, he served as the director of the Institute of Medical Engineering, Shenzhen Institute of Advanced Technology, Chinese Academy of SciencesIn July 2016, he was appointed as the vice president of Shenzhen Institute of Advanced Technology, Chinese Academy of SciencesIn 2017, he was selected as a national young and middle-aged expert with outstanding contributionsIn June 2018, he was appointed as the director of the Key Laboratory of Health Informatics, Chinese Academy of SciencesIn April 2020, he was appointed as the director of the National High-Performance Medical Device Innovation CenterIn June 2023, he was appointed as the director of the Key Laboratory of Medical Imaging Science and Technology System (National), and in November he was elected as an academician of the Chinese Academy of Sciences.
Hairong Zheng is mainly engaged in medical imaging theory, electronics and information processing research, as well as medical equipment research and development. The theory of implicit regularized sparse fast imaging and a new system of high-speed imaging electronics were proposed, which broke through the problem of slow medical magnetic resonance imagingAs the chief scientist, he led the team to successfully develop China's first 30t high-field magnetic resonance, the world's first 50t ultra-high field magnetic resonance and realize industrialization, breaking the long-term monopoly of foreign countries;He proposed a new method for biomeasurement of acoustic radiation forces, and successfully developed a new generation of non-invasive ultrasound elastic modulus imaging instrument, which has realized the leap of ultrasound generation, and has been used in more than 1,000 hospitals around the worldA new principle of ultrasonic radiation force neuromodulation was proposed, and the world's first non-invasive cranial neuromodulation instrument was successfully developed.
Zheng Jianhua, born in Changchun, Jilin Province in September 1956, native of Ningbo, Zhejiang, information analysis expert, academician of the Chinese Academy of Sciences, researcher of the Institute of Technical Security of the PLA Secrecy Committee, researcher of the School of Network Security of the Information Engineering University of the Strategic Support Force of the Chinese People's Liberation Army.
Zheng Jianhua graduated from the Graduate School of the University of Science and Technology of China in 1987In 1992, he was rated as a young and middle-aged expert with outstanding contributions to the country, and in the same year, he was awarded the first special allowance expertIn 2011, he was elected as an academician of the Chinese Academy of SciencesIn October 2018, he attended the unveiling ceremony of the Cyber Security Studio of Academician Zheng Jianhua of Xidian UniversityIn December 2021, he attended the unveiling ceremony of the "Home of Shandong Academicians".
Zheng Jianhua has long been engaged in the analysis of complex information systems and related basic theoretical research. He has conducted systematic research on sequence theory, function theory, algorithm design and analysis in the field of complex information system analysis, and has made research achievements in the output analysis technology of complex information system, the theory and method of system model analysis, and the research of system parameter reduction technology, which have played a role in the analysis of practical complex systems for many times.
Zheng Wanhua, born in February 1966 in Jilin City, Jilin Province, is an expert in artificial microstructured materials and optoelectronics, an academician of the Chinese Academy of Sciences, a researcher and doctoral supervisor of the Institute of Semiconductors of the Chinese Academy of Sciences.
Zheng Wanhua graduated from the Department of Optics of Shandong University in 1988 and was sent to the Institute of Physics of the Chinese Academy of SciencesGraduated with a Master of Science degree;After graduating with a master's degree in 1991, he joined the Institute of Semiconductors, Chinese Academy of Sciences as an assistant researcherHe received his Doctor of Science degree from Hong Kong Baptist University in 1998He joined the Communist Party of China in 2000From 2001 to 2003, he worked as a postdoctoral researcher in the optoelectronics laboratory of the University of New South Wales, AustraliaFrom 2003 to 2005, he served as a researcher at the Institute of Semiconductors, Chinese Academy of SciencesIn 2010, he was awarded the National Science Grant for Distinguished Young ScholarsIn 2014, he was selected into the National Millions of Talents ProjectIn 2019, he was selected as a distinguished expert of Taishan Scholars in Shandong ProvinceIn 2021, he was elected as an academician of the Chinese Academy of Sciences.
Wanhua Zheng is mainly engaged in the research of artificial microstructured materials and semiconductor lasers. She was the first to propose to the Ministry of Science and Technology to research high-performance photonic crystal lasers in China, and took the lead in breaking through laser lasing in China, and developed a full-chain independent and controllable technology system from photonic crystal band control, photonic crystal laser structure design, material growth to chip manufacturing. In the research of silicon-based photonic crystal and laser generation, silicon-based nanostructured materials are used to achieve photonic crystal microcavities with high q value, and silicon-based photonic crystal wide bandgap materials are used for the first time in the world to realize mode-locked pulse lasing of visible lightIn the research of III-V semiconductor artificial microstructure materials and devices, it is the first time in China to achieve a breakthrough in INP and Gaas-based photonic crystal plane emission and edge emission lasersIn terms of new photonic integration technology, we have developed the first wafer bonding and cleaning system with independent intellectual property rights in ChinaThe high-performance laser output obtained by jointly controlling the photonic state and the electronic state has achieved systematic innovative results, and the low-divergence angle photonic crystal laser technology has been successfully transferred.
Zheng Yaozong, born in Hong Kong on February 9, 1939, is a native of Zhongshan, Guangdong, an expert in microelectronics, an academician of the Chinese Academy of Sciences, a former president of the City University of Hong Kong and a former president of the University of Hong Kong.
After graduating from the University of Hong Kong in 1963, Cheng Yiu-chung went to Canada to studyHe received his Ph.D. from the University of British Columbia, Canada, in 1967In 1989, he was appointed President of the City Polytechnic of Hong KongIn 1995, he became President of the City University of Hong KongIn 1996, he became President and Vice-Chancellor of the University of Hong KongIn 1999, he was elected as an academician of the Chinese Academy of SciencesIn September 2000, he resigned as president of the University of Hong Kong under pressure from various parties.
Zheng Yaozong has long conducted systematic research on metal-silica-silicon (MOS) systems and their device physics and process technology. The invention of silicon oxidation technology solved the problem of threshold voltage drift and unstable operation of metal-silicon oxide-silicon (MOS) devices and integrated circuits at that time, and improved the performance, reliability and yield of MOS devices and circuits. In the world, the scattering theory of surface roughness of carriers in MOS inverse layers was first proposed, and this mechanism has become the main factor determining the carrier mobility of MOS inverted layers after MOS integrated circuits enter the deep submicron stage, which is a major development in the physics of MOS devices. He was one of the earliest researchers to develop silicon nitride technology. He has made important achievements in the research of deep submicron device models.
Zheng Youjiong, born on October 1, 1935 in Datian, Fujian Province, is an expert in semiconductor materials and device physics, an academician of the Chinese Academy of Sciences, and a professor of the Department of Physics of Nanjing University.
Zheng Youjiong studied at the Department of Physics of Nanjing University from 1953 to 1957 and obtained a bachelor's degree in science after graduationSince 1957, he has been teaching in the Department of Physics, Nanjing UniversityFrom 1984 to 1986, he was a visiting professor at the State University of New YorkIn 2003, he was elected as an academician of the Chinese Academy of Sciences.
Zheng Youjiong is engaged in the research of new semiconductor heterostructure materials and devices. In the study of the heterostructure of silicon germanium and group nitrides, he developed optical radiation heating methods and new technologies for the growth of germanium-silicon and group nitride heterostructures. Based on germanium-silicon and nitride polarization band engineering, a variety of new devices have been developed. A new heterostructure system of ferroelectric, gallium nitride and ferromagnet semiconductors was proposed and realized. A new structure of strain-induced orderization of germanium-silicon alloy was discovered, and a new model was proposed. Reveal the heterostructure polarization, two-dimensional electron gases and their related properties of group nitrides. The two-dimensional electron gas of cadmium telluride and indium antimonide heterostructure and the law of occupying sub-bands were observed, which opened up the research field of two-dimensional electron gas of II-VI III-V heterogeneous systems. In this paper, a quantum-confined silicon nanostructure at the silicon dioxide interface based on silicon germanium technology is proposed. He also led the establishment of the Semiconductor Superlattice Laboratory at Nanjing University.
Zheng Zhiming, born in Shanghai in October 1953 and originally from Ningbo, Zhejiang, is an expert in information processing, an academician of the Chinese Academy of Sciences, a professor and doctoral supervisor of the School of Mathematics and Systems Science of Beihang University.
Zheng Zhiming received his Ph.D. in Science from Peking University in 1987 and stayed on to teachFrom 1987 to 2003, he successively served as a lecturer, associate professor and professor at the School of Mathematical Sciences, Peking UniversityIn 1996, he was promoted to professor and doctoral supervisorFrom 1998 to 2003, he successively served as the Vice Dean of the School of Mathematical Sciences and the Vice Provost of Peking UniversityIn 2003, he joined Beijing University of Aeronautics and AstronauticsFrom 2003 to 2004, he served as the Dean of the School of Science of Beihang UniversityFrom 2004 to 2014, he served as Vice President of Beihang UniversityIn 2014, he served as the deputy director of the Academic Committee and the deputy director of the School Council of Beihang UniversityIn 2017, he was elected as an academician of the Chinese Academy of SciencesIn 2018, he was rated as a famous teacher of the National Ten Thousand Talents ProgramIn 2020, he became a professor at the Institute of Artificial Intelligence of Peking University.
Zheng Zhiming has long been engaged in research in the intersection of mathematics and information, such as aerospace information security and complex information systems. He has created the dynamic cipher, which is based on the principles and methods of cryptanalysis based on the fusion of algebra and dynamics, broken through the technical bottlenecks of high-speed, low-consumption and multi-mode aerospace information security, and successfully developed a series of new aerospace security equipment. For complex information systems, he has created theories and methods to regulate the complexity of systems, and established a new computing model for rapid information dissemination, global diffusion of information and accurate data analysis, which has had an important international academic impact.
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