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Johan Paulsson’s lab at Harvard Medical School is spearheading a nationwide initiative to combat antimicrobial resistance using high-precision technology that requires novel microfluidics and
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. The vision for this position is to create opportunities to “translate” the technology from academia (benchtop experiment) to industry, crossing the line between early innovation and commercial readiness of new
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Johan Paulsson’s lab at Harvard Medical School is spearheading a nationwide initiative to combat antimicrobial resistance using high-precision technology that requires novel microfluidics and
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The Rowland Institute at Harvard seeks outstanding early-career experimentalists in all fields of science and engineering to establish fully independent research groups in the rich intellectual
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Medical School. The research team focuses on the application of cutting-edge technologies in tissue engineering, microfluidics, and bioengineering to develop advanced in vitro models for studying urogenital
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and system implementations. Develop project plans, timelines, and budgets. Utilize change management principles to ensure the successful adoption of new processes. Technology Integration: Collaborate
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— problems in the field. You’ll have opportunities to: Collaborate with and learn from with highly specialized experts Train on and use world-class technology Conduct research at the NIH Clinical Center
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physical engineering to produce new (and, therefore, synthetic) life forms. To develop organisms with novel or enhanced characteristics, this emerging field of study combines biology, engineering, and
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advanced technology cores, animal facilities, and high-performance computational resources to conduct their experiments. Houston is among the most diverse cities in the country, with many cultural amenities
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-world impact in natural sciences and engineering-related disciplines. Our program intends to support research that is driven by the fellow and enables them to pursue their own creative ideas in