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to medical use by combining advanced biomaterials, novel microscopy techniques and robotics. You will lead on the development of the control algorithms and electronics to optimise the acquisition and analysis
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We are seeking a full-time Postdoctoral Research Assistant who will work with Professor Malavika Nair and the SMARTBio Team to develop prototype regenerative and therapeutic technologies for cardiac tissue engineering using extracellular matrix derived constructs, at the Department of...
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will explore how polymerase based synthetic methods of designer DNA can lead to biomaterials with exploitable chemical handles for sensing and data storage applications. DNA has long had potential as a
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interaction and drones, with strong potential to impact our core research themes of ‘Green Energy’, ‘Future Transport’ and ‘Bioengineering & Biomaterials’. Staff also support our delivery of engineering and
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relevant discipline (Engineering, materials science, biomaterials healthcare technology etc), as well as experience in performing experimental work, collecting data and analysing research findings. How
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synthesis of designer DNA for novel nanomaterials – this project will explore how polymerase based synthetic methods of designer DNA can lead to biomaterials with exploitable chemical handles for sensing and
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leading role in design of the assays and the characterisation of cellular behaviour using similar approaches to those published by the Kuimova group (ACS Nano 2018,12, 4398; Biomaterials, 2017, 139, 195
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response to various biomaterials. Understanding the time-and spatial-dependent molecular processes underpinning foreign body response is important for a broad range of applications, from the development
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, biomaterials and in other important applications. Currently there are more than 80 peptide drugs approved world-wide, with many more in clinical trials, including essential antibiotics, antiviral and anticancer
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broad range of biomedical applications, the focus of this project is on understanding the foreign body response to various biomaterials. Understanding the time-and spatial-dependent molecular processes