Realizing Photo-switchableMechanoluminescence in Organic Crystals Based on Photochromism
Realizing Photo-switchable Mechanoluminescence in Organic Crystals Based on Photochromism
Realizing Photo-switchable Mechanoluminescence in Organic Crystals Based on Photochromism
Promote the Exchange of World Engineering Science and Technology: Academicians of Northwestern Polytechnical University Led a Delegation to Participate in the Series of Activities of World Engineering Day
Chief Scientist,Academic Pace-setter-Academician Prof. Huang Wei
Prof. HUANG Wei was born in Hebei province of China in May 1965. He is the member of Chinese Academy of Science and Asia Pacific Academy of Materials Science, the international member of Russian Academy of Science, ASEAN Academy of Engineering and Technology, Pakistani Academy of Sciences, the fellow of the Royal Society of Chemistry, UK, and is also the leading scientist in organic electronics and flexible electronics.
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Organic electronics is a new interdisciplinary subject based on the preparation, characterizations, and applications of organic optoelectronic materials and related devices. The research in organic electronics plays a vital role in the advancement of flexible electronics, and is of upmost importance for further promoting the development of basic research on related flexible optoelectronic functional materials,and industrialization of flexible information functional devices, etc. The research topics in our division of organic electronics cover the molecular design and macro preparation of new organic optoelectronic materials, performance adjustment and mechanism study of optoelectronic materials, processing and performance research of flexible anic electronic devices, and the development of new ways of organic electronic integration and flexibility.
Plastic Electronics is one of the core disciplnes of Flexbile Electronics. Based on the intrnsic flexible polymers and their elelctronics devices, Plastic Electronics focus on a serise of key scientific problems as the optal-electric properties of polymer semiconductors, condensate behavior of polymer films, dynamics of carriers and mechanics at the interfaces of devices, and develop the solution process of polymer thin-film and the craft of device fabrication, towards flexible plascie electronics devices and systems. Rising from the discover of conductive polymers, the studies on the design, synthesize and preparation of conjugated polymers and various device performance have erned impressive achievements in the past flourishing forty years, including polymer electroluminescence device, transistor, memory, photovotalic cell, energy storage, photoelectric detection and gas sensor etc..
Bioelectronics is an emerging field of research in the convergence of biology, electronics, chemistry, physics, materials, and medicine, which is of paramount importance for achieving our national goal of “healthy China” and boosting the development of science, technology, and economy of China. The research in our division of bioelectronics covers fundamental and applied research in healthcare, including novel (opto)electronic techniques for early prevention, diagnosis, and intervention of critical diseases, novel materials and devices of flexible electronics for biological detection and health monitoring, etc.
Printing electronics is an interdisciplinary research area developed by the penetration of chemistry, physics, materials, electronics, machinery and other disciplines. It mainly focuses on the technology, cost and flexible and transparent fabrication of large-scale electronic devices in modern electronic device manufacturing industry.
Flexible energy electronics materials and devices mainly focus on the development of advanced energy materials as well as their devices founded on Energy Electronics discipline, and establish a creative and innovative research platform for advanced energy materials technology. The Division of Advanced Energy will dedicate to making a breakthrough in processing technology and cutting-edge scientific applications of scalable, flexible, bendable and stretchable energy devices.
Chang 'an Campus: Qixiang Building, No. 1 Dongxiang Road, Chang 'an District, Xi 'an
Friendship Campus: No. 127, Friendship West Road, Beilin District, Xi 'an
Email: ife@nwpu.edu.cn
Zip Code: 710129
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