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, analysis, and optimization. The goal of the project is to develop methods for the synthesis and analysis of systems producing renewable fuels and chemicals; and use these methods, in collaboration with other
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that software systems, critical infrastructure, desktop support, and data analytics systems are optimized for operational efficiency, security, and regulatory compliance. This position entails direct, hands
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refined for optimal success and effectiveness. This position will play a key role in co-facilitating efforts to respond to internal and external audits and investigations, as well as perform analysis over
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and local Animal Welfare legislation and sound judgment how to balance optimal animal care, research goals, and regulatory requirements. The following tasks and skills that would be necessary for any
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the ability to perform advanced mouse work. -Optimally, the candidate has demonstrated experience with molecular biology and laboratory rodent handling and tissue culture. -Computational biology experience is
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the development and testing of new materials. The work will involve reactor design and setup with gas flow capability and process optimization. Qualified candidates should have a Ph.D. in chemistry, physics
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degree and experience in a relevant field. Ideal applicants will have experience in energy-system transition modeling, linear and mixed integer optimization programming, energy-related techno-economic
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, maintain, and optimize resources and infrastructure, and foster an open and highly collaborative environment conducive to innovative research and education. This position will be appointed at the rank
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Department of Chemical and Biological Engineering at Princeton University. The position is in the broad area of renewable energy systems synthesis, analysis, and optimization. The goal of the project is to
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to enhance procurement processes and compliance. As a leader within the central Procurement Services function, the Associate Director drives Source-to-Pay process optimization across the University