香港科技大学Kristiaan Neyts教授学术报告
报告时间:2024年10月24日(周四),09:15-10:00
报告地点:古天乐代言太阳集团城网址光电大楼502多功能厅
报告题目:Patterned photoalignment for nanoscale geometric phase diffractive optics
邀请人:郑继红教授
摘要:Azo-dye materials are photosensitive and can be used for patterned photoalignment. Complex high-resolution illumination patterns are realized by interferometry or by projecting the pixels of a spatial light modulator. The patterning can be used to realize complex director structures in nematic, cholesteric, blue phase and ferro-electric nematic liquid crystals.
报告人简介:
Kristiaan Neyts is professor at the Hong Kong University of Science and Technology (HKUST) in the Department of Electronic and Computer Engineering (ECE) and Director of the State Key Laboratory of Advanced Displays and Optoelectronics Technologies (SKLADT) since September 2023. He received a degree in physics engineering in 1987, a doctoral degree in engineering in 1992 and became professor at Ghent University in the ELIS department in the faculty of Engineering and Architecture in 2000, after post-doctors in Ghent and at UC Berkeley. He is co-author of over 300 scientific papers and promotor or co-promotor of 30 completed PhDs.
香港科技大学Vladimir G. Chigrinov教授学术报告
报告时间:2024年10月24日(周四),10:00-10:45
报告地点:古天乐代言太阳集团城网址光电大楼502多功能厅
报告题目:Azodye photoaligned nanolayers for liquid crystals: new applications
邀请人:郑继红教授
We will demonstrate a physical model of photoalignment and photopatterning based on rotational diffusion in solid azodye nanolayers. We will also highlight the new applications of photoalignment and photopatterning in display and photonics such as: (i) fast high resolution LC display devices, such as field sequential color ferroelectric LCD; (ii) LC sensors, including polarization sensors for polarimetric cameraas; (iii) LC lenses with a variable focal distance; (iv) LC E-paper devices, including electrically and optically rewritable LC E-paper; (v) photo induced semiconductor quantum rods alignment for new LC display applications; (vi)100% polarizers based on photoalignment; (vii) LC smart windows based on photopatterned diffraction structures; (vii) LC antenna elements with a voltage controllable frequency.
Acknowledgements
[1] V.G. Chigrinov, V.M. Kozenkov and H.S. Kwok, Photoalignment of liquid crystalline materials, Wiley, 2008.
[2] V.G. Chigrinov, Liquid Crystal Photonics, Nova Science Publishers, 2015.
报告人简介:
Professor Vladimir G. Chigrinov is Professor of Hong Kong University of Science and Technology since 1999. He is an Expert in Flat Panel Technology in Russia, recognized by the World Technology Evaluation Centre, 1994, and SID Fellow since 2008. He is an author of 6 books, 31 reviews and book chapters, about 333 journal papers, more than 718 Conference presentations, and 121 patents and patent applications including 50 US patents in the field of liquid crystals since 1974. He got Excellent Research Award of HKUST School of Engineering in 2012.He obtainedGold Medal and The Best Award in the Invention & Innovation Awards 2014 held at the Malaysia Technology Expo (MTE) 2014, which was hosted in Kuala Lumpur, Malaysia, on 20-22 Feb 2014. He is a Member of EU Academy of Sciences (EUAS) since July 2017. He got A Slottow Owaki Prize of SID in 2018. He is 2019 Distinguished Fellow of IETI (International Engineering and Technology Institute).
Since 2018 until 2020 he works as Professor in the School of Physics and Optoelectronics Engineering in Foshan University, Foshan, China. 2020-2024 Vice President of Fellow of Institute of Data Science and Artificial Intelligence (IDSAI) Since 2021 distinguished Fellow of Institute of Data Science and Artificial Intelligence. He is IETI Fellowsince 2019.Since March 2022 he is A Fellow of National Academy of Technology for his contributions to Information Electrical and Electronic Research. He is a Editor in Chief of Liquid Crystal section in Crystals journal since 2023.