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that are able to operate a step beyond the commercial state of the art. The candidate will be working on exploring the connectivity and plasticity properties of Working Memory - engrams by combining single-cell
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of their optoelectronic properties through their manipulation at molecular level, with the aim of developing highly stable and highly efficient perovskite solar cells. Specifically, our contribution is in the area of
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skills in cell biology, immunology, engineering, pharmaceuticals, and public health. “Our goal is to create an environment where students can become outstanding scientists.” Liao concludes. A Catalyst for
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puzzles in a quantum simulation approach. Moreover, they allow one to engineer and investigate even richer variants of the model, which go beyond the realm of existing materials. In our group, we
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. The successful candidate will be joining the Optoelectronics group led by Prof. Dr. Valerio Pruneri. The successful candidate will be responsible for various tasks related to the simulation, planning, development
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candidate will lead on the design of novel approaches to implement recyclable energy conversion devices such as electrolyzers, batteries, and solar cells. This will include both the active and passive
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spectroscopy and molecular dynamics simulations: We develop and apply novel ultrafast spectroscopic methods aimed at uncovering how changes in light, environment and structure switch the function of photoactive
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area, number of cells, and power. The postdoctoral candidate will have the opportunity to work in an EU-funded vibrant project at the intersection of chemical engineering, electrochemistry, material