Research projects
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Disruptively green neuromorphic scientific computing leveraging stochasticity
We will develop algorithms for neuromorphic hardware with computational material science as a use case. This will create more fundamental knowledge on next-generation materials for neuromorphic hardware.
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Sit with a scientist in the 'Walking park'
The ‘Walking Park’ is a pop-up park that moves to a different spot in the city center every three months. The new video series "Sit with a Scientist" is connected to the pop-up park.
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ASTRAL: Novel technologies for data transfer
ASTRAL will exploit the exclusive ability of light to initiate ultrafast spin dynamics and will attempt to interconvert femtosecond laser pulses into large-amplitude ultrashort SW pulses.
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Studying RNA-metabolite interactions
In Velema’s project, researchers will study how RNA interacts with small molecules in the cell, called metabolites.
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Robot lab for Big Chemistry in the Netherlands
The interdisciplinary research programme aims to build a revolutionary robot lab that combines chemistry and artificial intelligence (AI) and that will enrich the scientific infrastructure for chemistry in the Netherlands.
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Brain-inspired computing
In the project' Neuromorphic computational and data Science: towards disruptively green computing', IBM, SURF and Radboud University investigate how neuromorphic hardware can meet green and sustainable energy need.
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Molecular properties and light emission in electroluminescent devices
The research study provides a blueprint for future systematic research to unravel how a current flow in an electroluminescent device such as an OLED eventually leads to light and what the role the molecular properties play.
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Preclinical development of antiviral COVID medicine
Researchers at the Synthetic Organic Chemistry group at Radboud University and spin-offs Protinhi and Artemis are developing an antiviral molecule medicine against COVID-19.
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COMRAD: optimal magnetic switching for greenest random access devices
The COMRAD projects focuses on developing and fabricating a cold optomagnetic memory device for greener data centres and super-computers. COMRAD aims to demonstrate how to decrease the dissipated heat in data storage at least by a factor of 10.
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Copper-Catechol Synergy for the Development of an Energy-Dense and Long-Lived Redox Flow Battery
The project aims to develop a new generation of copper redox flow battery that have a long lifetime (>20 years) and higher energy density than the state-of-the-art copper redox flow batteries.
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Operando NMR methods for studying electrochemical ammonia synthesis
This project seeks to develop and apply new nuclear magnetic resonance (NMR) methods to understand electrocatalytic reaction mechanisms. NMR is a non-invasive, atom-specific, and quantitative spectroscopic method.
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Remote NMR (R-NMR)
Remote NMR (R-NMR) is 3 years project by 26 European NMR groups/entities that aims to design and deliver a platform for remote access capabilities to Nuclear magnetic resonance (NMR) Research infrastructures (RIs).
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DPI HYPERFAST
The main objective of this proposal is to capitalize on two important methodological developments that can remedy shortcomings of NMR for studying complex polymer systems.
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Single cell technology in drug discovery
Better understanding of complex biological processes at the cellular level, can lead to better understanding of how drug molecules work, better predicting side effects, and which patient groups benefit more or less from medication.
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GELSONDE: gaining better understanding of nitrogen dioxide
The GELSONDE project brings together a team of materials chemists and sensor specialists who are joining forces to create a new, low-cost, and portable sensor.
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GREENFRUIT: energy efficient fruit quality monitoring
The project team will advance the research & development activities to the next level. They focus on providing solutions reducing storage energy consumption by promoting green and energy efficient fresh fruit storage & sustainable agriculture
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Characterisation of therapeutic anti-CXCR4 antibodies
In this project, therapeutic antibodies against CXCR4 are characterised, which have been selected from large scFv phage libraries and engineered into complete human(ised) antibodies in collaboration with ModiQuest BV.
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Are glycans crucial determinants of autoantibody reactivity in multiple sclerosis?
In this pilot project the role of glycosylation in the autoantibody response in MS will be unexplored.
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Functional characterisation of the human sialyltransferase isoenzyme family
The project aims to decipher the specific functions of individual STfs isoenzymes to elucidate their biological roles which could warrant further investigation into their roles in diseases as inflammation where glycosylation changes are described.
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Genetic and chemical engineering of sialoglycoproteins in human cells
This project is focused on the use genetic engineering and chemically-modified sugar building blocks to dissect the biosynthetic network of glycosyltransferases.