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of Environmental Microbial Biotechnology with a strong background in metal stress alleviation and omics technologies. The project focuses on exploring microbial communities and their molecular mechanisms
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bioprocesses for the bioleaching and biorecovery of rare earth elements (REEs) from secondary sources. The successful candidate will investigate the bioleaching capabilities of pre-selected microorganisms and
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Expected Start Date: October 2025 Job Description We are seeking a highly motivated postdoctoral researcher with expertise in vanadium and rare-earth element (REE) recovery, thermodynamic modeling
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methods. The interest areas are (but are not limited ): to novel electronic structure and methods, light-matter interactions modeling, topological phenomena, magnetism, superconductivity, quantum
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. Skilled in analytical methods for catalytic/separation agents materials characterization. Solid understanding of chemical kinetics principles. Key Responsibilities: Develop and optimize adsorbent catalytic
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of Radionuclides and Heavy Metals: Develop and implement nuclear analysis methods to characterize phosphate ores and their by-products. Monitor and control the migration of radionuclides and heavy metals throughout
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the different soils and how they govern water, air, and C, N, P, and other elements biogeochemical cycling within the critical zone. The successful candidate must understand the roles of water and atmospheric
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completion method insufficient. However,we may collect other information and features about the elements of the network. Therefore, side information about the nodes along with the observed edges need to be
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component. The battery management system (BMS) unit is not just a component, but a crucial element tasked with monitoring each cell of the battery and running algorithms to calculate state of charge (SoC
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characterization of metal-organic frameworks (MOFs) and their composites using sustainable alternatives, such as waste and industrial by-products. The synthesized materials will subsequently be applied in catalysis