The advances in wireless networks and electronics have led to the emergence of Wireless Sensor Networks (WSNs), which are considered to be one of the most important technologies that can revolutionize healthcare systems. Read more
Medical robots development and validation are time consuming, arduous processes that heavily rely on building fixed hardware architectures and embedded software to be tested in controlled, structured synthetic environments. Read more
Virtual populations have been used in in silico trials and offer several advantages over traditional clinical trials. They allow for rapid, cost-effective testing of medical devices across a wide range of patient anatomies and physiologies. Read more
This project will be undertaken in collaboration with Paxman Coolers Ltd and will involve a minimum 3-month placement based at the Industry Partner's premises. Read more
Our employees are the center of our company and our most important factor of success. For the Else Kröner Fresenius Zentrum für optogenetische Therapien we are currently / from the for the earliest start date onwards looking for a. Read more
The York group has a leading role in the emerging field of photonic entanglement at the MeV (gamma) scale. This includes exploration of the benefits from using the quantum entanglement between the 2-gamma photons exploited in PET medical imaging (e.g. Read more
Introduction. With the promise of unprecedented data speeds, near-zero latency, and ubiquitous connectivity, 6G networks are poised to revolutionize industries ranging from healthcare to autonomous vehicles. Read more
Background. Bacterial biofilms pose a significant challenge in healthcare and industrial settings, where they colonize surfaces such as implants, urinary catheters, food processing equipment, and pipelines. Read more
In this project we will develop hollow-core optical fibres (HCFs) for mid-infrared laser delivery. HCFs offer a radically new solution for laser delivery as they guide light in a gas-filled core, instead of the glass in conventional optical fibres. . Read more
In this project we will develop hollow-core optical fibres (HCFs) for mid-infrared laser delivery. HCFs offer a radically new solution for laser delivery as they guide light in a gas-filled core, instead of the glass in conventional optical fibres. Read more
Minimally invasive brain-machine interfacing (MiBMI) establishes a direct communication pathway between the brain and external devices with minimal disruption to the brain or surrounding tissues. Read more
Closing date. 31st December 2025. This PhD project is about pushing the boundaries in manufacturing, and making lasers become autonomous decision-makers, guiding us into a future of faster, cleaner, and more precise production processes. . Read more
*Offer only available for the duration of your active subscription, and subject to change. You MUST claim your prize within 72 hours, if not we will redraw.
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