Sort by
Refine Your Search
-
. This link is unique to the MIBTP programme; please do not use any other link to apply to this project or your application may be rejected: https://sits.bham.ac.uk/urd/sits.urd/run/siw_ipp_lgn.login?process
-
between these molecules to engineer new quantum states. However, so far it is not well known how to achieve entanglement with molecules with such plasmonic systems. This PhD project will focus on developing
-
portal. This link is unique to the MIBTP programme; please do not use any other link to apply to this project or your application may be rejected.
-
matter, such as how droplets form, merge, and stay apart. This research not only deepens our understanding of chemistry but also supports the development of new materials, medicines, and environmentally
-
Advances in manufacturing science have resulted in unprecedented research and development in the design of ‘micro-swimmers’: microscopic entities that navigate fluid environments by converting some
-
pressure, not localized contractile forces. This project will develop a soft, capacitive iontronic sensor array integrated into a swallowable capsule to capture spatiotemporal pressure profiles of
-
. This project will develop a proof of concept ingestible device that attaches to the gut lining using microneedles for long term monitoring of luminal neurotransmitters. These microneedles will not just penetrate
-
waste management, considering existing and potential future regulations worldwide and considering what is needed to effectively displace new mining expansions. 4. Using these scenarios, develop a model
-
interested in a PhD or postdctoral fellowship in a field related to Computational Fluid Dynamics, please do contact me at b.fraga@bham.ac.uk to prepare your application.
-
drugs at the target site, using only an internal battery and on-board sensors for fully autonomous operation. The overarching goal is to develop a battery-powered ingestible capsule that autonomously