44 evolution "https:" "https:" "https:" "https:" "VIB" positions at Newcastle University

PhD Studentship in Medicinal Chemistry: High-throughput Chemistry and direct-to-biology Testing to Accelerate Drug Discovery

Newcastle University | Newcastle upon Tyne, England | United Kingdom | 4 days ago

to the discovery of new medicines is the time taken to design, synthesise and test compounds through multiple cycles of optimisation. You will seek to develop an approach to reduce that time through development

PhD Studentship in Medicinal Chemistry: High-throughput chemistry and direct-to-biology testing to accelerate drug discovery

Newcastle University | Newcastle upon Tyne, England | United Kingdom | about 21 hours ago

. The project will seek to develop an approach to reduce that time through development of high-throughput chemistry approaches that allow the rapid synthesis of analogues with clean-up and direct-to-biology

PhD Studentship in Medicinal Chemistry - Lysine-targeted Warheads to Expand Covalent Drug Discovery

Newcastle University | Newcastle upon Tyne, England | United Kingdom | 22 minutes ago

to lysine-TCI development in drug discovery. These optimised warheads will be incorporated into known inhibitors and tested against the relevant protein as a proof of concept. This is an opportunity to join a

PhD Studentship in Medicinal Chemistry - Hydrophobic warheads to expand covalent drug discovery

Newcastle University | Newcastle upon Tyne, England | United Kingdom | about 21 hours ago

UKRI rate). Additional project costs will also be provided. Overview The project aims to explore the potential of new warheads for the development of targeted covalent inhibitors for drug discovery

PhD Studentship in Medicinal Chemistry - Hydrophobic Warheads to Expand Covalent Drug Discovery

Newcastle University | Newcastle upon Tyne, England | United Kingdom | 3 days ago

Overview The project aims to explore the potential of new warheads for the development of targeted covalent inhibitors for drug discovery. Targeted covalent inhibitors (TCIs) have vast potential

PhD Studentship: Representative Elementary Volume fluid dynamic modelling for sedimentary geothermal production

Newcastle University | Newcastle upon Tyne, England | United Kingdom | 11 days ago

attention to boundary conditions and heterogeneity. The outcomes will support improved design, risk reduction and development of low-carbon geothermal resources. This project addresses sustainable resource

EPSRC ReNU+ CDT PhD Studentship: Physics-informed machine learning for deep geothermal systems under uncertainty.

Newcastle University | Newcastle upon Tyne, England | United Kingdom | about 21 hours ago

living examples of a highly skilled workforce delivering an equitable energy transition so that Net Zero is inclusive for all. The development of deep geothermal energy systems relies on robust modelling

PhD Studentship: Real-Time River Water Quality Forecasting through Integrated Hydrodynamic and Surrogate Modelling

Newcastle University | Newcastle upon Tyne, England | United Kingdom | 30 days ago

-based modelling with data driven surrogate approaches. The first stage of the project will involve the development of a multi-layer hydrodynamic model capable of representing key three-dimensional flow

PhD Studentship: Rooted in Resilience: Optimising the Plant-Soil System for Flood-Resilient Rain Gardens

Newcastle University | Newcastle upon Tyne, England | United Kingdom | about 21 hours ago

, soil evolution, and biodiversity. Using these insights, you will develop a classification system and decision-support framework to guide practitioners in selecting plants and designing rain gardens

PhD Studentship: Real-Time River Water Quality Forecasting through Integrated Hydrodynamic and Surrogate Modelling

Newcastle University | Newcastle upon Tyne, England | United Kingdom | about 21 hours ago

the development of a multi-layer hydrodynamic model capable of representing key three-dimensional flow processes in riverine and estuarine systems. This model will be coupled with advection–diffusion–reaction