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Field
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Programme? Other EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Metal nanoparticles confined within zeolite pores exhibit enhanced catalytic activity
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design of metal/metal-oxide cluster-based supported nanocatalysts for sustainable chemistry applications.The grand challenge in the field of supported nanocatalysts is to design materials with the maximum
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of new helically chiral metal complexes to be explored in enantioselective catalysis. The attention will be paid to the synthesis of cyclometallated helicenes and helical cyclopentadienyl complexes
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Programme? Other EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Project summary: Metal nanoparticles immobilized at zeolite supports are important
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of mobile elements. In contrast, euphalic forms exchange genetic information and allow the expansion of mobile elements in the genome. The main mechanism controlling mobile elements in the genome is the piRNA
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inbred state, which likely limits the expansion of mobile elements. In contrast, euphalic forms exchange genetic information and allow the expansion of mobile elements in the genome. The main mechanism
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Faculty of Science, Palacky University Olomouc, Olomouc, Czech Republic | Czech | about 2 months ago
ligands and metal complexes suitable for molecular magnetism / supervisor: Assoc. Prof. Bohuslav Drahoš, Ph.D. • Coordination compounds of f-elements with radical ligands / supervisor: Assoc. Prof. Radovan
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of freedom for achieving particular electromagnetic properties than a single antenna. Given requirements predetermine the choice of a specific class of antennas as elements of the antenna array
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Development of MXene-Based Hybrid Catalysts for Efficient Photo- electrochemical Hydrogen Production
production through photo-electrochemical (PEC) water splitting, emphasizing innovative, cost-effective materials and novel composite architectures. The work will focus on exploring MXenes (2D transition metal
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are interested in applied quantum chemistry with a focus on heavy element compounds, this is an ideal opportunity for you. The Marek lab has access to state-of-the-art computational tools and cutting