Profile
Overview
Dr Ahmed Khalil has got his PhD at Kyushu University, Japan, in September 2017. As a researcher, he has considerable knowledge and experience-acquired skills in synthesising and characterising nanomaterials, ceramics, and functional materials for different applications. In addition, he has worked in modelling, optimising, and simulating environmental and chemical processes since his master’s degree. His track record of publications has exceeded 25 peer-reviewed journal publications and 20 conference proceedings since 2015 (refer to his ResearchGate profile link).
Currently, he is working on the Transforming the Foundation Industries Research and Innovation Hub (TransFIRE) Programme at the Faculty of Environment, Science and Economy, University of Exeter (UoE). The ceramics technical working group, Prof Zhang and Dr Khalil, collaborate with TransFIRe work streams and various foundation industry partners on the delivery of some important cross-sectoral case studies, such as refractory recycling, spent foundry sand, and upcoming others, in which they focus on producing durable refractories using fewer materials from sustainable resources. They seek to cause real transformative change within the foundation industries. For this purpose, they work on identifying the key intervention points and the drivers and barriers for this transformative change and its challenges and solutions through co-organising workshops and meetings with foundation industry partners.
Publications
Copyright Notice: Any articles made available for download are for personal use only. Any other use requires prior permission of the author and the copyright holder.
2021
- Khalil AME, Memon FA, Tabish TA, Fenton B, Salmon D, Zhang S, Butler D. (2021) Performance Evaluation of Porous Graphene as Filter Media for the Removal of Pharmaceutical/Emerging Contaminants from Water and Wastewater, Nanomaterials, volume 11, no. 1, pages 79-79, DOI:10.3390/nano11010079. [PDF]
2019
- Khalil AME, Memon FA, Tabish TA, Zhang S, Butler D. (2019) Porous graphene – a potential sorbent for removing emerging contaminants from water, 19th International Conference on Green Energy and Environmental Technology (GEET19), Paris, France, 24th - 26th Jul 2019.
2017
- Aljamal R, Eljamal O, Khalil A, Saha BB, Matsunaga N. (2017) Effects of sodium borohydride as a reductant on the synthesis conditions of Nano-scale Zero Valent Iron, DOI:10.15017/1906152.
- Shubair T, Eljamal O, Khalil A, Matsunaga N. (2017) Nitrate Removal in Porous Media Using Nanoscale Zero Valent Iron: Column Experiment, DOI:10.15017/1906408.