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involves the development and optimization of both in vitro and in vivo models to investigate diabetes-related disease mechanisms and to evaluate potential therapeutic targets. Working under the supervision
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field. Certification and Licensing: Not applicable. Experience: Extensive experience in robotics system design, real-time control, and embedded systems integration. Demonstrated expertise in artificial
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. Lead synthesis of chemical reactions and design of biomaterials including hydrogels, nanofibers, and microneedles. Design, fabricate, and optimize biodegradable microneedle patches for transdermal drug
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. Implements and optimizes computing workflows using high-performance computing clusters. Prepare manuscripts, abstracts, and presentations, present findings at internal meetings and international conferences