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This project is part of the EU-funded Print4Life , a Marie Sklodowska-Curie (MSCA) doctoral network led by Prof. Persson, group leader of BioMaterial Systems (BmS). This network has eight doctoral candidate host
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. Objective 1: Optimise the cryoprinting process for fabricating poly(vinyl alcohol) (PVA) and gelatin GelMA-based structures with interconnected 3D pores and channels to achieve precise control over construct
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This project is part of the EU-funded Print4Life , a Marie Sklodowska-Curie (MSCA) doctoral network led by Prof. Persson, group leader of BioMaterial Systems (BmS). This network has eight doctoral candidate host
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of Chemistry. This position is intended to begin January 1, 2026. The aim of this project is to develop and apply computational methods for statistical learning on chemical reaction network (CRNs) structures
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genetic engineering strategies to enhance the ability of the host cell line to make these products more efficiently. These strategies include manipulating the expression of specific endogenous genes
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Process For further information, terms and conditions, and details on how to apply, please click on the link below https://www.ucd.ie/spire/study/prospectivephdstudents/iseulthonohandoctoralscholarship/
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from TCPHI to develop a robust Research Proposal to be submitted as part of the application process. Trinity College Dublin will charge an application fee. You may receive notification following your
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. This frontier research project will focus on establishing a new intelligent, AI-driven bioprinting platform with volumetric process vision and closed-loop control. This technology will be leveraged to fabricate
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relevant discipline such as mechanical engineering or physics. Experience in laboratory testing or numerical modelling is desirable. Excellent written, oral communication skills, and competence in