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analyses to patient-derived samples and disease models. Working closely with a dynamic and multidisciplinary team of clinicians and scientists, they will help generate and interpret high-resolution datasets
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achieve this successfully is an area of highly active research. Here, you will take on the exciting challenge of understanding the dynamics of DNA replication by studying the activity of eukaryotic
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electrochemistry. Our goal is to combine electronic structure theory, molecular and quantum dynamics methodology, and machine learning methods to achieve an accurate yet computationally feasible description
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We are seeking an ambitious scientist to join a vibrant team examining the evolution of locomotion in birds. The overall aim of the project is to deliver an exhaustive anatomical and functional data
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for informing rheological characterisation of living and model algal cell walls in dynamic and physiological environments. This exciting project aims to reveal the mechanical properties of the cell walls
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state (aroused, asleep, groggy)? We are a small, supportive, and dynamic group (www.dehozlab.org ) made of a diversity of people united by a passion for science and the brain. The lab is now transitioning
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for informing rheological characterisation of living and model algal cell walls in dynamic and physiological environments. This exciting project aims to reveal the mechanical properties of the cell walls
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Postdoctoral Researcher in Machine Learning of Isomerization in Porous Molecular Framework Materials
computational chemistry to MFMs is that, even for "rigid" MFMs, especially when functionalized, their structures are disordered due to the random orientation of linkers. Such structural disorder and flexibility
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state (aroused, asleep, groggy)? We are a small, supportive, and dynamic group (www.dehozlab.org ) made of a diversity of people united by a passion for science and the brain. The lab is now transitioning
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electrophysiological recording (cMOS Multielectrode array) and calcium imaging and optogenetics. The long-term goal is to understand how cortical organoids process information. For this aspect there will be