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- THE HONG KONG POLYTECHNIC UNIVERSITY
- University of Cambridge
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of investigation include electromagnetic and light-driven heating techniques, and the influence of materials formulation and fibre architectures on process control, heating efficiency, and final material properties
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and social acceptance. This research will develop an efficient variable renewable energy (wind and solar) input system architecture to produce, store, and distribute variable power output (electrical
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Resilience (three posts) (Ref. 250604003) The Department of Building Environment and Energy Engineering (BEEE) contributes to PolyU’s world ranking of 17th for Architecture and Built Environment as
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supervisors spans five departments at University of Nottingham including Architecture and Built Environment, Electrical and Electronic Engineering, Mathematics, Physics and Social Sciences. The PhD programme
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supervisors spans five departments at University of Nottingham including Architecture and Built Environment, Electrical and Electronic Engineering, Mathematics, Physics and Social Sciences. The PhD programme
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highly talented and dedicated PhD student with a 1st class or 2:1 degree in the field of Engineering, Mathematics, Physics, Architecture or Computer Science. A MSc degree in a relevant area is desirable
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. This project will be jointly supervised by Dr Matthew Walker (Assistant Professor in Architectural History), Dr Frank Salmon (Associate Professor in the History of Art) at Cambridge; and, at the Museum
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, particularly in computer networks, operating systems, computer architecture and distributed systems Excellent programming, system building and measurement skills are required Be familiar with, and ideally worked
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development timescales and cost. This could yield efficiency improvements in areas like integrated fan-intake systems, very high bypass ratio engines, ultra-efficient boundary layer ingestion architectures
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integrates dynamic “smart” materials into 3D-printed structures, opens new frontiers in both bioelectronics and solar energy harvesting. Our goal is to create adaptive electrode architectures. These advanced