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In this project you will develop next-generation cell tracking methods for organoids based on advanced AI approaches and novel biophysics concepts, in order to elucidate the remarkable self-renewal and differentiation capabilities of organoids. Over the past years, our two research groups (Tans...
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You will use advanced AI-driven cell tracking methods to elucidate the remarkable self-organization of cells in mammary gland organoids. The mammary gland is one of the most dynamic tissues in the mammalian body. However, we lack insight in key processes: duct branching (during puberty), alveoli...
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The Hybrid Nanosystems group at NWO-Institute AMOLF is looking for a postdoc for investigating light-induced processes in situ inside the transmission electron microscope (TEM). Modern TEMs now can routinely visualize materials all the way down to the atomic level, revealing unexpected insights...
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Are you intrigued by the forefront of biophysics technology – and integration with genome-wide data and AI methods? Thanks to groundbreaking advancements, we can now show the internal dynamics of the most complex cellular processes that are vital to life. Our research group has been at the...
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Large-language models (LLMs) have impressive capabilities, such as automatically generating code, writing poetry, or summarizing text; but can they be used to automate the design of mechanical machines? In the hypersmart matter group at AMOLF, we want to answer this question in the context of...
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Photonic metamaterials have fascinating properties for light, with many applications from communication and imaging to photovoltaics and topological physics. They are however notoriously difficult to design, owing to the large parameter space and multidimensional design targets. In this pilot...
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Mycorrhizal fungi are a class of symbiotic soil microbes that form resource exchange partnerships with >80% of all plant species on Earth. These fungi play an important role in nutrient flows underground. Terrestrial plants funnel 13 Gt of CO2 from the atmosphere into these underground mycelial...
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Did you know high-energy electrons can serve as efficient sources of optical excitation of matter? Our group has developed cathodoluminescence (CL) microscopy, in which we use 1-30 keV electrons in a scanning electron microscope (SEM) to excite nanomaterials. The oscillating electric field...
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Mycorrhizal Fungi are ubiquitous symbiotic soil organisms that are critical to the majority of terrestrial ecosystems. They form underground networks that account for 25-50% of soil biomass worldwide and support plant growth by forming underground trade networks with a major impact global carbon...
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The Self-Organizing Matter group seeks motivated and talented PhD students to join our team working in the field of chirality. We are fascinated by how simple physical chemical phenomena can lead to complete chiral symmetry breaking. We use the interplay between crystallization phenomena and...