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Field
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, characterization, and optimization of novel compatible electrolyte/electrode systems for the next generation Li-, Na- and Zn-ion batteries Supervisor: Linas Vilčiauskas, Electrochemical Energy Storage Group
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the interactions between ink and fiber, optimize track architecture, and ensure long term functional stability. This research direction is highly promising due to its broad applicability in health monitoring, sports
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against dynamic loads and fire impacts Research and development of AI-optimized, energy-efficient and sustainable small-batch gasification technology Development and Investigation of Wide-Bandgap
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such as healthy living, transport, green energy, and advanced manufacturing. The role requires strong hands-on technical skills in modern AI, including deep learning, foundation models, LLMs, agents, and
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collaborations in areas such as healthy living, transport, green energy, and advanced manufacturing. The role requires strong hands-on technical skills in modern AI, including deep learning, LLMs, Agentic AI, and
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vivo research program. This is a significant and meaningful role with a direct and essential impact on the translation of promising experimental therapeutic preparations from in vitro concepts to in vivo
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biofouling. One promising yet insufficiently explored approach to address this challenge is the use of biofouling-resistant anodes, such as nanoporous metal electrodes or electrodes modified with semi
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narrow-band-gap 1,6-1,8 eV copper–bismuth oxide that remains largely unexplored in photocatalytic and photoelectrochemical water splitting. The central hypothesis is that the photocatalytic performance
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of artificial intelligence technologies; performance of new technologies for data analytics, information, and knowledge management; building the digital reputation of the organization on social media; Scholarly
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the dynamics determined by environmental factors remain insufficiently assessed. The aim of this work is to conduct studies on the identification and quantification of microplastics in order to