Webinar
Contents
Host
Prof. Chuanfei Guo
Department of Materials Science and Engineering, Southern University of Science and Technology, Shenzhen, Guangdong, China.
Dr. Guo is now as professor at the Southern University of Science and Technology (SUSTech). His research fields are mainly focused on high-performance electronic-skins, body-comformal/flexible electronics, abnormal micro-nano fabrication technology.
Speaker
Prof. Zuankai Wang
Department of Mechanical Engineering, The Hong Kong Polytechnic University
Prof. Zuankai Wang is currently Chair Professor of Nature-Inspired Engineering in the Department of Mechanical Engineering at The Hong Kong Polytechnic University (PolyU) and concurrently serves as Associate Vice President (Research & Innovation). Professor Wang is a founding member of the Hong Kong Young Academy of Sciences, Fellow of the International Society of Bionic Engineering (ISBE), Croucher Senior Research Fellow (2023), RGC Senior Research Fellow (2022), Highly Cited Researcher (Cross-field) recognized by Clarivate (2022), and Changjiang Chair Professor conferred by Ministry of Education of China (2016). His work has been recognized by the Guinness Book of World Records and two inventions have won the International Exhibition of Inventions of Geneva Gold Medal and Gold Medal with Congratulations of Jury, respectively. He has received many awards including the Green Tech Award (2021), Xplorer Prize (2020), Hall of Fame (Advanced Engineering Materials, 2019), 35th World Cultural Council Special Recognition Award (2018), President's Lectureship (2020, 2018), Outstanding Research Award (Senior, 2017), President's Award at CityU (2017, 2016). The Ph.D. students he supervised have won many prestigious awards including the Grand Prize and First Prize of Hong Kong University Student Innovation & Entrepreneurship Competition (2022), Hong Kong Young Scientist Award (2015, 2019, 2022), Materials Research Society Graduate Student Gold Award (2016) and Silver Award (2015, 2021), Hiwin Doctoral Dissertation Award (2016, 2019, 2021).
Abstract
A defining feature of living organisms lies in their efficient use of surfaces to dynamically interface with environments for a continuous flux and exchange of water, energy, heat, and information. The ubiquity and diversity of these elegant natural surfaces construct the Surface of Things (SOT), reminiscence of Internet of Things (IOT) which has received vast attention and widely penetrated into our daily life. Despite extensive progress, particularly triggered by learning from nature, the power and magic of natural surfaces evade our deep scrutiny, and it also appears challenging to design, manufacture and adopt artificial SOTs that exhibit high performances as their natural counterparts. The challenges originate from the complexity in adopting one surface design to resolve many seemingly contradictory properties to yield optimized functions for many practical applications, especially in harsh environments.
In this talk, I will reveal intriguing property-function relationships on natural surfaces and then design, manufacture nature-inspired SOT with tailored complementary properties in topography, wetting, thermal/electrical conductivity, stiffness to overcome the inherent tradeoff otherwise associated with homogeneous design for water, energy, environment and healthcare applications.
In this talk, I will reveal intriguing property-function relationships on natural surfaces and then design, manufacture nature-inspired SOT with tailored complementary properties in topography, wetting, thermal/electrical conductivity, stiffness to overcome the inherent tradeoff otherwise associated with homogeneous design for water, energy, environment and healthcare applications.
Presentation
Prof. Zuankai Wang: Nature-Inspired Surfaces of Things (SOT)
NaN