ORCID iD: 0000-0002-5807-5043
Scopus Author ID: 6603897069
Google Scholar Profile: -PE9-iUAAAAJ

Metrics for Academic and Research Impact

PhD (Sheffield, UK), Dipl-Ing (TUG, Austria), GCHE (Monash, Australia), FIMMM (UK), FInstP (UK)     

Prof. Daoud graduated from the University of Technology Graz, Austria, with a Dipl-Ing degree (BS and MS) in Chemical Engineering and received his PhD in flexible bilayer photovoltaic cells from the University of Sheffield, UK. In 2002, he joined the Hong Kong Polytechnic University, where he played a substantial role in the establishment of a Nanotechnology Center in 2003 and took up a lectureship in 2005. In 2007, he moved to Monash University as lecturer and was promoted to senior lecturer in 2010. He joined City University of Hong Kong in 2012 and served in various administrative roles including Program and Stream Leader and Associate Dean for Research and Postgraduate Studies. 

Prof. Daoud’s current research is mainly focused on energy harvesting and smart wearable technologies. His group is developing approaches for harvesting free or waste energy, such as light and kinetic energies. Being intermittent sources, it is equally important to find storage solutions for this form of energy. Therefore, the group is interested in the modelling and design of compatible energy storage batteries. Prof. Daoud has received international renown and several awards for his pioneering work on wearable solar self-cleaning and kinetic energy harvesting technologies. His research has featured in Nature (2004) and Science (2008) and the international press, such as Reuters (2014), BBC (2015), SCMP (2017), Physics World (2021), and PV Magazine (2022). He has been invited to present Plenary and Keynote lectures at international conferences and is currently serving as Chief Editor of Wearable Electronics, Frontiers in Electronics and Advisory/Editorial Board member of the Journal of Power Sources Advances and Industrial Chemistry & Materials.

• Almardi J, Daoud WA, Automatic Watch Inspired Omnidirectional All Frequency Wave Energy Converter, US Patent, 63/437,440, filed 6 Jan 2023.
• Bo X, Daoud WA, Wang L, Li W, Stretchable Solid Ionic Electrode for Biomechanical Energy Harvesting, China Patent, PWG/PA/1208/3/2022, filed 7 June 2022.
• Wang L, Daoud WA, Triboelectric Generator, Biomechanical Energy Harvester, and Method of Making Triboelectric Material, US Patent, 17732636, filed 29 April 2022.
• Daoud WA, Wang L, Liu F, Iamphaojeen Y, Functional Cashmere Fiber and Fabrication Method Thereof, US Patent, US17594958, issued 12 October 2022.
• Xu Y, Daoud WA, Leung M, Method for Making Aerogel, US Patent, US10807059, issued 20 Oct 2020.
• Hu Y, Lin C, Daoud WA, Method for Synthesizing Lactide by Means of Catalysis of Lactic Acid, US Patent, US10392362, issued 27 August 2019.
• Daoud WA, Leung SK, Tung WS, Xin JH, Wang X, Kong YY, Qi K, Formulation Coated Self-cleaning Wool, US Patent, US8679588, issued 25 March 2014.
• Daoud WA, Xin JH, Qi K, Method for Preparing an Article with Single-Phase Anatase Titanium Oxide, US Patent, US8309167, issued 13 Nov 2013.
• Daoud WA, Xin JH, Qi K, Method for Making Single-Phase Anatase Titanium Oxide, US Patent, US7255847, issued 14 Aug 2007.

We are looking for postdocs, research assistants, and PhD students in the areas of renewable energy conversion and storage with the following requirements. For Postdoctoral applicants: a PhD degree in a relevant science or engineering field and publication record. For Research assistants: a Master degree or Bachelor (Honours) or equivalent in a relevant science or engineering field and preferably research experience. For PhD candidates: a Master degree or Bachelor (Honours) or equivalent in a relevant science or engineering field and English fluency. Qualified candidates are encouraged to submit their application (including CV and copies of transcripts) via e-mail to Dr. Walid Daoud at [email protected].

• Approaches for harvesting light and kinetic energies
• Hybrid nanogenerators for self-powered wearable electronics
• Flexible organic based photovoltaics
• Renewable energy compatible energy storage flow batteries
• Solar wearable self-cleaning nanotechnology